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3 Semester - 2022 - Batch | Paper Code |
Paper |
Hours Per Week |
Credits |
Marks |
AEN321 | ADDITIONAL ENGLISH | 3 | 3 | 100 |
BTY331 | MOLECULAR-BIOLOGY AND BIOPHYSICS | 4 | 4 | 100 |
BTY351 | MOLECULAR-BIOLOGY AND BIOPHYSICS LAB | 4 | 2 | 50 |
CHE331 | CHEMISTRY III-ORGANIC AND ANALYTICAL CHEMISTRY | 4 | 4 | 100 |
CHE351 | CHEMISTRY PRACTICALS - III | 2 | 2 | 50 |
ENG321 | ENGLISH-III | 3 | 2 | 100 |
FRN321 | FRENCH | 3 | 3 | 100 |
HIN321 | HINDI | 3 | 3 | 100 |
KAN321 | KANNADA | 3 | 03 | 50 |
SAN321 | SANSKRIT | 3 | 3 | 100 |
TAM321 | TAMIL | 3 | 3 | 100 |
ZOO331 | ANIMAL PHYSIOLOGY AND BIOCHEMISTRY | 4 | 4 | 100 |
ZOO351 | ANIMAL PHYSIOLOGY AND BIOCHEMISTRY LAB | 2 | 2 | 50 |
4 Semester - 2022 - Batch | Paper Code |
Paper |
Hours Per Week |
Credits |
Marks |
AEN421 | ADDITIONAL ENGLISH | 3 | 3 | 100 |
BTY431 | GENETIC ENGINEERING | 4 | 4 | 100 |
BTY451 | GENETIC ENGINEERING LAB | 4 | 2 | 50 |
CHE431 | CHEMISTRY IV-INORGANIC AND PHYSICAL CHEMISTRY | 4 | 4 | 100 |
CHE451 | CHEMISTRY PRACTICALS - IV | 2 | 2 | 50 |
ENG421 | ENGLISH-IV | 3 | 2 | 100 |
FRN421 | FRENCH | 3 | 3 | 100 |
HIN421 | HINDI | 3 | 3 | 100 |
KAN421 | KANNADA | 3 | 03 | 50 |
SAN421 | SANSKRIT | 3 | 3 | 100 |
TAM421 | TAMIL | 3 | 3 | 100 |
ZOO431 | GENETICS AND EVOLUTIONARY BIOLOGY | 4 | 4 | 100 |
ZOO451 | GENETICS AND EVOLUTIONARY BIOLOGY LAB | 2 | 2 | 50 |
5 Semester - 2021 - Batch | Paper Code |
Paper |
Hours Per Week |
Credits |
Marks |
BTY541A | IMMUNOLOGY | 3 | 3 | 100 |
BTY541B | PLANT BIOTECHNOLOGY AND BIOINFORMATICS | 3 | 3 | 100 |
BTY542A | BIOPROCESS ENGINEERING | 3 | 3 | 100 |
BTY542B | FOOD SCIENCE | 3 | 3 | 100 |
BTY551A | IMMUNOLOGY LAB | 4 | 2 | 50 |
BTY551B | PLANT BIOTECHNOLOGY AND BIOINFORMATICS LAB | 2 | 2 | 50 |
BTY552A | BIOPROCESS ENGINEERING LAB | 2 | 2 | 50 |
BTY552B | FOOD SCIENCE LAB | 2 | 2 | 50 |
CHE531 | CHEMISTRY V-PHYSICAL CHEMISTRY | 3 | 03 | 100 |
CHE541A | CHEMISTRY VA-ORGANIC CHEMISTRY | 3 | 03 | 100 |
CHE541B | CHEMISTRY VB-INORGANIC CHEMISTRY | 3 | 3 | 100 |
CHE551 | CHEMISTRY PRACTICALS V-PHYSICAL CHEMISTRY | 2 | 02 | 50 |
CHE551A | CHEMISTRY PRACTICALS VA-ORGANIC CHEMISTRY | 2 | 02 | 50 |
CHE551B | CHEMISTRY PRACTICALS VB-INORGANIC CHEMISTRY | 2 | 2 | 50 |
ZOO531 | REPRODUCTIVE BIOLOGY | 3 | 3 | 100 |
ZOO541A | AQUATIC BIOLOGY AND FISHERIES | 3 | 3 | 100 |
ZOO541B | PARASITOLOGY AND MEDICAL ENTOMOLOGY | 3 | 3 | 100 |
ZOO551 | REPRODUCTIVE BIOLOGY LAB | 2 | 2 | 50 |
ZOO551A | AQUATIC BIOLOGY AND FISHERIES LAB | 2 | 2 | 50 |
ZOO551B | PARASITOLOGY AND MEDICAL ENTOMOLOGY LAB | 2 | 2 | 50 |
6 Semester - 2021 - Batch | Paper Code |
Paper |
Hours Per Week |
Credits |
Marks |
BTY631 | ANIMAL BIOTECHNOLOGY | 3 | 3 | 100 |
BTY641A | ALGAL BIOTECHNOLOGY | 3 | 3 | 100 |
BTY641B | ENVIRONMENTAL BIOTECHNOLOGY | 3 | 3 | 100 |
BTY641C | DEVELOPMENTAL BIOLOGY | 3 | 3 | 100 |
BTY641D | HUMAN GENETICS | 3 | 3 | 100 |
BTY651 | ANIMAL BIOTECHNOLOGY LAB | 4 | 2 | 50 |
BTY651A | ALGAL BIOTECHNOLOGY LAB | 4 | 2 | 50 |
BTY651B | ENVIRONMENTAL BIOTECHNOLOGY LAB | 4 | 2 | 50 |
BTY651C | DEVELOPMENTAL BIOLOGY LAB | 4 | 2 | 50 |
BTY651D | HUMAN GENETICS LAB | 4 | 2 | 50 |
BTY652E | RESEARCH PROJECT IN BIOTECHNOLOGY | 5 | 5 | 150 |
CHE631 | CHEMISTRY VI-MOLECULES OF LIFE | 3 | 3 | 100 |
CHE641A | CHEMISTRY VIA-INDUSTRIAL MATERIALS AND ENVIRONMENT | 3 | 3 | 100 |
CHE641B | CHEMISTRY VIB-CHEMISTRY OF NATURAL PRODUCTS AND HETEROCYCLIC COMPOUNDS | 3 | 3 | 100 |
CHE651 | CHEMISTRY PRACTICALS VI-MOLECULES OF LIFE | 2 | 2 | 50 |
CHE651A | CHEMISTRY PRACTICALS VIA-INDUSTRIAL MATERIALS AND ENVIRONMENT | 2 | 2 | 50 |
CHE651B | CHEMISTRY PRACTICALS VIB-CHEMISTRY OF NATURAL PRODUCTS AND ORGANIC ANALYSIS | 2 | 2 | 50 |
CHE681 | DISSERTATION IN CHEMISTRY | 7 | 5 | 100 |
ZOO631 | IMMUNOLOGY | 3 | 3 | 100 |
ZOO641A | APPLIED ZOOLOGY | 3 | 3 | 100 |
ZOO641B | MEDICAL DIAGNOSTICS AND FORENSIC BIOLOGY | 3 | 3 | 100 |
ZOO641C | SERICULTURE | 3 | 3 | 100 |
ZOO651 | IMMUNOLOGY LAB | 2 | 2 | 50 |
ZOO651A | APPLIED ZOOLOGY LAB | 2 | 2 | 50 |
ZOO651B | MEDICAL DIAGNOSTICS AND FORENSIC BIOLOGY LAB | 2 | 2 | 50 |
ZOO651C | SERICULTURE LAB | 2 | 2 | 50 |
ZOO651D | RESEARCH PROJECT IN ZOOLOGY | 2 | 2 | 50 |
AEN321 - ADDITIONAL ENGLISH (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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Course Description
This course is taught in the second year for students from different streams, namely BA, BSc
and BCom. If the first year syllabus is an attempt by the Department of English, Christ
University to recognize and bring together the polyphonic Indian voices in English and Indian
regional literatures in translation for the Additional English students of the first year, the
second year syllabus intends to take that project a little further and open up the engagement
of the students to texts from across the world. The syllabus - selection of texts will
concentrate on readings from South Asian, Latin American, Australian, Canadian, and Afro-
American. It will voice subaltern concerns of identity, gender, race, ethnicity and problems of
belongingness experienced by humanity all over the globe.
The syllabus will extend the concerns of nation and nationality and marginalization,
discussed within the Indian context to a more inclusive and wider global platform. We have
consciously kept out ‘mainstream’ writers and concentrated on the voices of the subalterns
from across the world. There is an implicit recognition in this project that though the aspects
of marginalization and the problems facing subalterns are present across cultures and
nations, the experiences, expressions and reflections are specific to each race and culture.
The course will address these nuances and specificities and enable our students to become
more aware and sensitive to life and reality around them. This will equip the students, who
are global citizens, to understand not just the Indian scenario, but also situate themselves
within the wider global contexts and understand the spaces they will move into and negotiate
in their future.
There is a prescribed text book Blends: Voices from Margins for the second year students,
compiled by the Department of English, Christ University and intended for private circulation. Course Objectives
The course objectives are
to enable students to look at different cultures through Literature
to help students develop an understanding of subaltern realities and identity politics
to inculcate literary sensibility/taste among students across disciplines
to improve language skills –speaking, reading, writing and listening
to equip the students with tools for developing lateral thinking
to equip students with critical reading and thinking habits
to reiterate the study skills and communication skills they developed in the previous
year and extend it. |
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Learning Outcome |
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CO1: it will enable students to understand and analyse the nuances of cultures, ethnicities and other diversity around them and become sensitive towards them. CO2 : They will be able to critique literature from a cultural, ethical, social and political perspectives
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Unit-1 |
Teaching Hours:12 |
Children?s Novel
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TetsukoKuroyanagi: Tottochan: The Little Girl at the Window12 | |
Unit-2 |
Teaching Hours:12 |
Short Story
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Liliana Heker : “The Stolen Party
Higuchi Ichiyo: “Separate Ways”
Harukki Murakami "Birthday Girl"
Luisa Valenzuela: “I’m your Horse in the Night”
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Unit-3 |
Teaching Hours:12 |
Poetry
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Poetry 12 Hrs
Silvio Curbelo: “Summer Storm”
Nancy Morejon: “Black Woman”
Ruben Dario: “To Roosevelt”
Mina Asadi: “A Ring to me is a Bondage” | |
Unit-4 |
Teaching Hours:9 |
Essay
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Essay 9Hrs
Amy Tan: “Mother Tongue
Linda Hogan: “Waking Up the Rake”
Isabelle Allande: “Open Veins of Latin America” | |
Text Books And Reference Books: Blends Book II | |
Essential Reading / Recommended Reading Oxford Encyclopeadia on Latin American History Children's Literature - Kimberley Reynolds (CUP) | |
Evaluation Pattern Evaluation Pattern
CIA 1: A written test for 20 marks. It can be an Open Book test, a classroom assignment, an
objective or descriptive test pertaining to the texts and ideas discussed in class.
CIA2: Mid-semester written exam for 50 works
CIA 3: This is to be a creative test/ project in small groups by students. They may do
Collages, tableaus, skits, talk shows, documentaries, Quizzes, presentations, debates,
charts or any other creative test for 20 marks. This test should allow the students to explore
their creativity and engage with the real world around them and marks can be allotted to
students depending on how much they are able to link the ideas and discussions in the texts
to the world around them.
Question Paper Pattern
Mid Semester Exam: 2 hrs
Section A: 4x5= 20
Section B: 2x15=30
Total 50
End Semester Exam: 3 hrs
Section A: 4 x 5 = 20
Section B: 2 x 15= 30
Total 50 | |
BTY331 - MOLECULAR-BIOLOGY AND BIOPHYSICS (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:100 |
Credits:4 |
Course Objectives/Course Description |
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The paper introduces the students with the fundamentals of molecular biology and biophysics. It also gives a clear out look on the molecular biology techniques used in the laboratory. |
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Learning Outcome |
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CO1: Examine the basic concepts of molecular biology with depth understanding of cellular machinery. CO2: Illustrate the structural and functional aspects of basic biomolecules such as DNA, RNA and protein and the mechanisms of DNA replication, transcription, translation. CO3: Explain how gene expression is regulated. CO4: Relate the molecular basis of life and the underlying genetic principles. CO5: Describe the principle and applications of various bio analytical techniques. |
Unit-1 |
Teaching Hours:4 |
Introduction to Macromolecules and Molecular Biology
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Nucleic Acids:- DNA and RNA as genetic material and the proof (Griffith Experiment, Avery-McCarthy-McCleod Experiment, Hershey Chase Experiment, Biochemical evidences, Experiments using HRV and TMV ) | |
Unit-2 |
Teaching Hours:15 |
DNA Structure, Properties and Replication
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Watson and Crick model of DNA (Structure of Bases, Nucleosides and nucleotides, Chargaff Rule, Watson and Crick base pairing, Hoogsteen base pairing, physical measurements of DNA, antiparallel nature), Different forms for DNA (A, B and Z), chemical and spectroscopic properties of DNA (Effect of temperature:- denaturation and renaturation kinetics, Absorption of UV light, density gradient centrifugation, intercalating agents, effects of Acid and Alkali on DNA, solubility of DNA), DNA supercoiling (negative and positive supercoiling), Topoisomerase (Types and mechanisms). Hypothesis on DNA replication, Proof for Semi conservative model of replication of DNA (Meselson and Stahl Experiment, Thymidine incorporation Assay), Polarity of DNA replication, Prokaryotic DNA Replication Machinery: Gyrase, helicase, DNA polymerases (types, functions, properties) Origin of replication of DNA, Primer, Growing Fork, Mechanism of DNA replication (initiation, elongation (lagging and leading strand synthesis) and termination. Eukaryotic DNA replication – Multiple origins of replication, enzymes and proteins involved in replication, End replication problem and its solution (Telomere and telomerases and its significance in replication and involvement in cancer and aging). Models of DNA replication: Theta model and Rolling circle model, D-loop method. Inhibitors of DNA replication. | |
Unit-3 |
Teaching Hours:11 |
Alteration of Genome in Prokaryotes
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Mutation: Definition and Types (Point mutation: Substitution, Addition, Deletion; Frame-shift Mutation, Missense and nonsense mutation, forward and reverse mutation, suppression mutation. Somatic and germline mutation, Transition and transversion, Neutral nonsynonymous and synonymous mutation, lethal mutation) causes of mutation: Spontaneous (Wobble base pairing, addition and deletion by DNA looping out, spontaneous chemical changes: oxidative damage, alkylation and deamination) and Induced mutations (UV, base analogues, alkylating, Hydroxylating and deaminating agents. Repair mechanisms - photoreactivation, Mismatch repair, excision repair (BER and NER), SOS repair and recombination repair, Transformation – Tatum and Lederberg’s experiment, Conjugation – F+ and F- strains, Hfr strains. Transduction - Lytic and lysogenic life cycles of bacteriophage, generalized and specialized transduction. | |
Unit-4 |
Teaching Hours:4 |
Genome Organization
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Organization of genomes in prokaryotes and eukaryotes- concept of Gene, structure of genes, monocistronic and polycistronic genes, C value paradox, Gene organization and expression in mitochondria and chloroplast, functions, significance, role in evolutionary studies. Transposable elements – classes, transposons in bacteria, maize and Drosophila, retrotransposons, LINEs and SINEs, transposons and mutations. | |
Unit-5 |
Teaching Hours:8 |
RNA Structure, Function and Synthesis
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Structure and functions of mRNA, tRNA, rRNA, snRNA, hnRNA, long noncoding RNA (LNC RNA) miRNA and siRNA. Ribozymes: Types of ribozymes, role of RNA in ribosome catalytic core). Types of RNA polymerases in prokaryotes and Eukaryotes. Sigma factors and subunits of RNA polymerase in prokaryotes. Transcription – initiation, elongation, and termination. Structure of promoter, initiation factors. Elongation factors and mechanism. Termination, types of termination: ATP dependent and independent, transcription factors and its importance, post transcriptional modifications of eukaryotic mRNA: capping and polyA tailing. RNA splicing. Introduction to CRISPR-Cas9: guide RNA. | |
Unit-6 |
Teaching Hours:7 |
Protein Synthesis and Modification
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Properties of Genetic code and Wobble hypothesis. Mechanism of translation in prokaryotes and eukaryotes (activation and attachment of amino acid to tRNA, initiation, elongation and termination of polypeptide chain), role of Ribosomes in Protein synthesis, post translational modifications of proteins- (glycosylation, protein folding, acetylation, phosphorylation), polysomes. | |
Unit-7 |
Teaching Hours:6 |
Regulation of Gene Expression in Prokaryotes and Eukaryotes
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Operon concept and its advantages, anabolic (trp operon) and catabolic operon (lac operon), Regulation of Gene expression in Eukaryotes -DNA (methylation) and Histone (acetylation) modifications. | |
Unit-8 |
Teaching Hours:5 |
Principles and Applications of Bioanalytical Techniques
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Chromatography (Paper, Thin layer, column and GLC). Spectroscopy (Visible, Fluorescence, UV), Flow cytometry. | |
Text Books And Reference Books: 1) G. M. Malacinski, Freifelder's Essentials of Molecular Biology, 4th ed. New Delhi: Narosa Publications, 2013. 2) K. Wilson and J. Walker, Principles and Techniques of Biochemistry and Molecular Biology, 7th ed. New York: Cambridge University Press, 2010. 3) B. Lewin. Genes IX. Massachusetts: Jones and Bartlett Publishers, 2007. | |
Essential Reading / Recommended Reading 1) H. Lodish, A. Berk, P Matsudaira, C. A. Kaiser, M. Krieger, M. P. Scott, L. Zipursky and J, Darnell, Molecular Biology of the cell. 5th ed. New York: W.H. Freeman and company, 2008. 2) D.L. Nelson and M. M. Cox. Lehninger’s Principles of Biochemistry, 6th ed. USA. W. H. Freeman and company. 2013. 3) D. Voet and J. G. Voet. Biochemistry. 4th ed. USA: Wiley. 2011. 4) M. L. Srivastava. Bioanalytical Techniques, New Delhi: Narosa Publications. 2011. 5) J. D. Watson, T. A. Baker, S.P. Bell, A. Gann, M. Levine and R. Losick, Molecular biology of gene, 7th ed. USA: Cold Spring Harbor Laboratory Press, 2014. 6) R. M. J. Cotterill, Biophysics: An Introduction. New York: John Wiley & Sons, 2002. 7) B. R. Glick, J. J. Pasternak and C. L. Patten, Molecular Biotechnology: Principles and application of recombinant DNA. 4th ed. Washington DC: American Society for Microbiology Press, 2010. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIAI – Assignments/test/presentation/etc – 10% CIAII – Midsemester exam – 25% CIAIII - Assignments/test/presentation/etc – 10% Attendance – 5% End Semester Theory Exam – 50% | |
BTY351 - MOLECULAR-BIOLOGY AND BIOPHYSICS LAB (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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The papes aims at providing practical exposure to students with regards to the basic procedures in molecular biology lab. It deals with extraction and quantification of important biomolecules like DNA and protein. |
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Learning Outcome |
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CO1: Demonstrate the extraction of proteins from animal and plant sources. CO2: Illustrate the quantification and purity assessment of nucleic acids. CO3: Plan estimation of DNA, RNA and protein. CO4: Gain understanding of various bio analytical techniques. CO5: Assess the importance of UV sterilization and the effect of UV on microbes |
Unit-1 |
Teaching Hours:60 |
Name of the experiment
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1) Preparation of Buffers-Citrate buffer, Phosphate buffer 2) Estimation of DNA by DPA method 3) Estimation of RNA by Orcinol method 4) Spectrophotometric estimation of DNA 5) Spectrophotometric estimation of RNA 6) Separation of amino acids by Paper Chromatography (ascending, descending and circular) 7) Separation of plant pigments by Thin Layer Chromatography and Paper chromatography 8) Extraction of protein from animal source by salt precipitation /organic solvent method & estimation using Biuret method 9) Extraction of protein from animal source by salt precipitation /organic solvent method & estimation using Lowry’s method 10) UV Mutagenesis 11) Ames test
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Text Books And Reference Books: 1) S Sadasivam, A. Manickam. Biochemical Methods. 2 Ed, Delhi: New Age International Publishers Ltd, 1996. 2) S. K. Sawhney. R. Singh. Introductory Practical Biochemistry. New Delhi. Narosa Publications. 2014. | |
Essential Reading / Recommended Reading 1) M. L. Srivastava. Bioanalytical Techniques, New Delhi. India. Narosa Publications. 2011. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks
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CHE331 - CHEMISTRY III-ORGANIC AND ANALYTICAL CHEMISTRY (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:100 |
Credits:4 |
Course Objectives/Course Description |
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This course deals with the concepts of organic and analytical chemistry and builds the foundation for more advanced topics in the subsequent courses. |
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Learning Outcome |
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CO 1: Summarise the fundamental aspects of organic molecules and their interactions. CO 2: Justify the chemicals and reactions based on the green chemistry approach. CO 3: Discuss the principles of analytical chemistry techniques and apply them in real sample analysis. CO 4: Relate theory of separation techniques and instrumental methods for analysis. |
Unit-1 |
Teaching Hours:8 |
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Section A: Organic Chemistry 1. Organic Compounds of Nitrogen
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Prelearning topics: Classification and nomenclature of amines, Preparation of nitroalkanes and aromatic nitro compounds. Amines (aliphatic and aromatic): Preparation: From alkyl halides, Reduction of nitro compounds and nitriles, Reductive amination of aldehydes and ketones, Gabriel’s phthalimide synthesis, Hofmann bromamide reaction (with mechanism). Reactions: Hofmann (with mechanism) vs. Saytzeff elimination, Carbylamine test, Hinsberg test, with HNO2. Separation of a mixture of 1°, 2° and 3° amines using Hinsberg reagent. Structural features affecting basicity of aliphatic and aromatic amines. Comparative study of basicity of aliphatic and aromatic amines. Schotten – Baumann Reaction (with mechanism). Electrophilic substitution reactions of aniline: Halogenation, nitration and sulphonation. Diazonium salts: Preparation by diazotization. Reactions: Conversion to benzene, phenol, iodo, fluoro and nitro benzene. Azo coupling. Sandmeyer and Gatterman reactions.
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Unit-2 |
Teaching Hours:5 |
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2. Heterocyclic Compounds
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Classification and nomenclature. Structure and aromaticity of 5-numbered and 6-membered rings containing one heteroatom. Synthesis and reactions of: Furan, Thiophene, Pyrrole, Pyridine, Indole, Quinoline and Isoquinoline.
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Unit-3 |
Teaching Hours:4 |
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3. Introduction to Green Chemistry
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Green Chemistry: Introduction - Environmental concern on chemical industry and need of green chemistry – Origin of green chemistry – Twelve principles of green chemistry with explanations - Atom economy and microwave assisted reactions - Green solvents . Microwave and ultrasound assisted green synthesis.
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Unit-4 |
Teaching Hours:6 |
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4. Polymers
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Introduction, types of polymers, polymerization reactions, Formation of Polythene, polypropylene, polystyrene, poly vinyl chloride, polyesters, polyamides including Nylon 6 and Nylon 6,6, resins. Physical properties of polymers, molecular masses of polymers, Introduction to conducting polymers with examples. Environmental hazards of polymers, biodegradable polymers. Plastics, Recycling of plastics. Fibres: natural and synthetic, Rubbers: natural and synthetic.
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Unit-5 |
Teaching Hours:7 |
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5. Carbohydrates
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Classification, and General Properties, Glucose (structural elucidation). Open chain and cyclic structures of fructose, galactose and mannose. Epimers and anomers. Determination of configuration of monosaccharides, Mutarotation, ascending and descending in monosaccharides. Interconversion of glucose and fructose. Structure of disacharrides (sucrose, maltose, lactose). Reducing and non-reducing sugars. polysacharrides (starch and cellulose) excluding their structure elucidation.
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Unit-6 |
Teaching Hours:5 |
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Section B: Analytical Chemistry 6. Statistical evaluation of analytical data
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Significant figures, Absolute error, accuracy, relative error, precision. Classification of errors – (a) Determinate errors –Operational & Personal errors, Instrumental & reagent errors, Errors of method, Additive & proportional errors (b) Indeterminate or accidental errors. Minimisation of errors– Calibration of apparatus & application of corrections, Running blank determination, Determination of accuracy of quantitative methods – Absolute method, Comparative method. Mean, median, standard deviation, variance (numerical problems)
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Unit-7 |
Teaching Hours:8 |
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7. Separation techniques
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Solvent extraction Introduction– Classification– Principles and application of solvent extraction. Nernst’s distribution law, distribution co-efficient. #Chromatography Introduction, Classification, Principles and Applications of column chromatography, thin layer chromatography, ion exchange chromatography, gas chromatography and high performance liquid chromatography (mention only).
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Unit-8 |
Teaching Hours:13 |
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8. Theory of chemical analysis
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a) Qualitative analysis 5 Hrs Introduction- Solubility product, ionic product, common ion effect, application of these in qualitative analysis. Selective precipitation of metal ions in their respective groups. Removal of interfering radicals. b) Quantitative analysis 8 Hrs Volumetric analysis: Introduction – Definition – Classification - Principles of acid base, redox, precipitation and complexometric titrations. Theory of indicators (redox, acid base, metallochrome and adsorption indicators) *Gravimetric analysis: Introduction –Classification – Principles. Organic reagents (DMG, Oxine) used for the precipitation.
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Unit-9 |
Teaching Hours:4 |
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9. Instrumental methods of analysis
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Introduction ––Principles and application of spectrophotometry (colorimetry), Flame photometry Electro analytical methods (potentiometry, conductometry).
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Text Books And Reference Books: [1] Bahl, A. & Bahl, B.S. Advanced Organic Chemistry, S. Chand, 2010. [2] B. Mehta, M. Mehta, Organic Chemistry, PHI Learning Private Limited, 2017. [3] D.A. Skoog, D.M. West, F.J. Holler and S.R. Crouch, Fundamentals of Analytical Chemistry, 8th Edition, Brooks/Cole, Thomson Learning, Inc., USA, 2004
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Essential Reading / Recommended Reading [1] Jain and Sharma Modern Organic Chemistry 3rd edition, Vishal Publishing Company, 2009. [2] R. T Morrison and R. N. Boyd. Organic Chemistry. 7thed. New Delhi: Prentice-Hall of India (P) Ltd., 2010. [3] S.M. Mukherji, S. P. Singh, and R. P. Kapoor. Organic Chemistry. 3rd, 12th Reprint, New Delhi: New Age International (P) Ltd. Publishers, 2009. [4] I. L Finar, Organic Chemistry Vol. II, 5th ed. New Delhi: ELBS and Longman Ltd., reprint 2008. [5] Vogels Textbook of Quantitative Chemical Analysis, 6th Edn., Pearson Education Ltd. 2009.
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Evaluation Pattern
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CHE351 - CHEMISTRY PRACTICALS - III (2022 Batch) | |||||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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This course is intended to provide basic skills in qualitative analysis at the semi micro scale. Identification of cations and anions present in inorganic compounds has to be performed. Separation of sugar and amino acid mixtures can be achieved through chromatography.
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Learning Outcome |
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CO 1: Analyse inorganic salt mixtures. CO 2: Discuss the separation of amino acid mixtures and sugar mixtures using chromatographic techniques. |
Unit-1 |
Teaching Hours:25 |
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Section A: Inorganic Chemistry
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Semi-micro qualitative analysis (using H2S or other methods) of mixtures - not more than four ionic species (two anions and two cations, excluding insoluble salts) out of the following: Cations : NH4+, Pb2+, Bi3+, Cu2+, Cd2+, Fe3+, Al3+ , Co2+ , Ni2+, Mn2+, Zn2+, Ba2+ , Sr2+ , Ca2+, K+ Anions : CO32– , S2–, SO2–, S2O32–, NO2– , CH3COO–, Cl–, Br–, I–, NO3– , SO42-, PO43-, BO33- (Spot tests should be carried out wherever feasible)
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Unit-2 |
Teaching Hours:5 |
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Section B: Organic Chemistry
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Separation of mixtures by Chromatography: (a) Separation and identification of the components of a given mixture of two amino acids by paper chromatography/TLC (b) Separation and identification of the components of a mixture of two sugars by paper chromatography/TLC
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Text Books And Reference Books: [1] Svehla, G. Vogel’s Qualitative Inorganic Analysis, Pearson Education, 2012. [2] Mann, F.G. & Saunders, B.C. Practical Organic Chemistry, 4th edition, Orient-Longman, 1979.
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Essential Reading / Recommended Reading [1] Textbook of Practical Organic Chemistry, Prentice-Hall, 5th edition, 1996. | |||||||||||||||||||||||||||||||
Evaluation Pattern
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ENG321 - ENGLISH-III (2022 Batch) | |||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:2 |
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Course Objectives/Course Description |
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Course Description English is offered as a course for all the students in BA, BSc, BCom, and BBA F&A classes in the third and fourth semesters. The aim is to strengthen the communication skills, and particularly study skills of the learners further, through adequate practice and exposure to good examples of writing, thought, ideas and human values. In addition, they will be trained in study skills through tasks in academic genres such as message, letter, essay, data interpretation etc. It aims to not only equip learners with skills but also sensitize them towards issues that concern human life in today’s globalised context. The course content is selected to meet the requirements of the departmental goal of “empowering the individual to read oneself, the social context and the imagined”; institutional goal of ensuring “holistic development”; and the national goal of creating competent and valuable citizens. The primary objective of this course is to help learners develop appropriate employability skills and demonstrate suitable conduct with regards to communication skills. The units are organised in order to help the learners understand the academic and workplace demands and learn by practice.
Course Objectives
· To enable learners to develop reading comprehension for various purposes
· To enable learners to develop writing skills for academic and professional needs
· To enable learners to develop the ability to think critically and express logically
· To enable learner to communicate in a socially and ethically acceptable manner
· To enable learners, to read, write and speak with clarity, precision and accuracy
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Learning Outcome |
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CO1: Recognise the errors of usage and correct them. Recognize their own ability to improve their own competence in using the language CO2: Read independently unfamiliar texts with comprehension. Read longer texts, compare, and evaluate them. CO3: Understand the importance of writing in academic life. Write simple sentences without committing errors in spelling and grammar. Plan a piece of writing using drafting techniques. |
Unit-1 |
Teaching Hours:10 |
Introduction to university grammar
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Subject verb agreement
Tenses
Preposition
Voices
Clauses
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Unit-2 |
Teaching Hours:10 |
Strategies for Reading
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Skimming and scanning
Strategies of reading
Reading and understanding reports
Reading content/ texts of various kinds
Inferencing skills
Academic vocab
Academic phrases
Professional expression
Study skills- library and referencing skills (organising reading, making notes, managing time, prioritising)
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Unit-3 |
Teaching Hours:10 |
Strategic writing for academic purpose
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Mind mapping
Organising ideas
Accurate usage of vocabulary
Paragraph strategy
Cohesion and sequencing (jumbled sentences to paragraph)
Extended writing
Formal and informal writing
Reports (all types including illustration to report and report to illustration and/or graphs, charts, tables and other statistical data)
Proposal writing (for projects, for research)
Academic essays/ articles
Persuasive writing, extrapolative writings
Case study writing
Executive summaries
Editing, proofreading skills
Resume vs CV
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Unit-4 |
Teaching Hours:10 |
Listening and Oral communication
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Self-introduction
Body language
Talks, speeches and presentations
Conversation
Telephone conversation
Meetings
Group discussion
Seminar / conference presentation
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Unit-5 |
Teaching Hours:5 |
Business communication
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Principles of communication
Process of communication
Types of communication Barriers in communication | |
Text Books And Reference Books: NIL | |
Essential Reading / Recommended Reading ENGlogue -2 | |
Evaluation Pattern
Evaluation Pattern
CIA 1: Classroom assignment/test/ written or oral tasks for 20 marks keeping in tune with the course objectives and learning outcomes. CIA 2: Mid-semester exam for 50 marks. CIA 3: Collage, tableaus, skits, talk shows, documentaries, Quizzes or any creative assignments.
End- semester 50 marks
End Semester Exam: 2 hrs
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FRN321 - FRENCH (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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French as second language for the Arts, Science and Commerce UG program |
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Learning Outcome |
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CO1: Ability to communicate with native speakers and make presentations on small topics
CO 2: Proficiency in literary analysis, appreciation and review of poems,play ,films and fables CO3: Acquaintance of culture, civilization, social values and etiquettes, and gastronomical richness
CO 4: Ability to do formal and informal, oral and written communication. CO 5: Overall knowledge on functional and communicative aspects and get through a2 level exams.
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Unit-1 |
Teaching Hours:9 |
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Dossier 1
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To perform a tribute: artist, work, you are going to….. | ||||||||||||||||||||||
Unit-2 |
Teaching Hours:9 |
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Dossier 2
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Towards a working life | ||||||||||||||||||||||
Unit-3 |
Teaching Hours:9 |
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Dossier 3
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France Seen by... | ||||||||||||||||||||||
Unit-4 |
Teaching Hours:9 |
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Dossier 4
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Mediamania | ||||||||||||||||||||||
Unit-5 |
Teaching Hours:9 |
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Le Bourgeois Gentilhomme
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Act 1, 2 & 3 | ||||||||||||||||||||||
Text Books And Reference Books: 1. Berthet, Annie, Catherine Hugot et al. Alter Ego + A2. Paris : Hachette, 2012 2. Gonnet, Georges. Molière- Le Bourgeois Gentilhomme .Paris : Hachette, 1971 | ||||||||||||||||||||||
Essential Reading / Recommended Reading 1. Lichet, Raymond., Puig Rosado. Ecrire à tout le monde. Paris : Hachette, 1980 2. French websites like Bonjour de France, FluentU French, Learn French Lab, Point du FLE etc. | ||||||||||||||||||||||
Evaluation Pattern
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HIN321 - HINDI (2022 Batch) | ||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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Course Description: The detailed text book “Shambook” is a Khanda Kavya written by Jagdeesh Gupta. To improve the creative writing skills, Nibandh, Kahani and Kavitha lekhan are included.Bharathiya chitrakala is also a part of the syllabus to improve the knowledge aboutIndian paintings. Course Objectives: Students are exposed to different forms of poetry especially, Khanda Kavya. It will help them to understand the contemporary socio-political issues.By learning about the tradition of Indian painting and legendary painters of India , students get to know about the richness and culture of the Indian paintings. Creative writing sharpens their thinking, analytical and writing skills |
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Learning Outcome |
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CO1: By the end of the course the student should be able to:
● CO1: Improve their writing skill in literary Hindi by doing asynchronous session assignments and CIAs.
● CO2: Improve their analytical skills through critical analysis of the poetry.
● CO3: Will be able to learn the different aspects of Official correspondence.
● CO4: To improve their basic research skills while doing the CIAs.
By the end of the course the student should be able to:
● CO1: Improve their writing skill in literary Hindi by doing assignments and CIAs
CO2: Improve their analytical skills through critical analysis of the poetry. CO3: To improve their basic research skills while doing the CIAs CO4: To understand the contributions of painters to Indian painting. |
Unit-1 |
Teaching Hours:15 |
Shambooh
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Khanda Kavya “Shambook” [Poetry] By:Jagdeesh Gupta. Pub: Raj Pal & SonsLevel of knowledge:Analitical | |
Unit-2 |
Teaching Hours:15 |
Creative writing
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Nibandh lekhan, Katha lekhan, Kavitha lekhan. Level of knowledge:Conceptual | |
Unit-3 |
Teaching Hours:15 |
Bharathiya chithrakala -parampara evam pramukh kalakar
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Utbhav, vikas aur pramukh shailiyam pramukh kalakar-1.M F Hussain 2.Ravindranath Tagore 3.Raja Ravi Varma 4.Jamini Roy. Level of knowledge: Conceptual | |
Text Books And Reference Books:
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Essential Reading / Recommended Reading .1. Sugam Hindi Vyakaran – Prof. Vamsidhar and Dharampal Shastry, SikshaBharathi,New Delh 2. Essentials of Screen writing: The art, craft and business of film and television writing By: Walter Richard. 3. Writing and Script: A very short introduction By: Robinson, Andrew. 4 .Creative writing By John Singleton 5. Adhunik Hindi Nibandh By Bhuvaneshwarichandran Saksena. | |
Evaluation Pattern CIA-1(Digital learning-wikipedia) CIA-2(Mid sem examination) CIA-3(wikipedia article creation) End semester examination | |
KAN321 - KANNADA (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:50 |
Credits:03 |
Course Objectives/Course Description |
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Course Description: Language Kannada is offered to students of third Semester BA/B.Sc as Second language for fifty marks. Students of this semester will study an anthology of Modern Kannada Poetry and an Autobiography of Laxman Gaikwad. This course prepares the students to understand the new era. At the dawn of the twentieth century, B.M. Srikantiah, regarded as the “Father of modern Kannada Literature”, called for a new era of writing original works in modern Kannada while moving away from archaic Kannada forms. Students will study modern Kannada poetry from B.M.Sri to Dalit poet Dr. Siddalingiah. An anthology of modern poetry is selected to understand the beauty of modern Kannada poets through their writings. Uchalya is an autobiographical novel that carries the memories of Laxman Gaikwad right from his childhood till he became an adult. Laxman Gaikwad took birth in a criminal tribe of India belonging to Orissa/ Maharastra. The original text is translated to Kannada by Chandrakantha Pokale.
Course Objectives: Understand and appreciate poetry as a literary art form. Analyse the various elements of Poetry, such as diction, tone, form, genre, imagery, symbolism, theme, etc. Appreciates to learn the elements of autobiography. |
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Learning Outcome |
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CO 1: Able to define autobiography CO2: Outline a personal autobiography CO3: Delineate different types of autobiography CO 4: Proficiency in communication skills CO5 : Understand the principles of translation |
Unit-1 |
Teaching Hours:15 |
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Modern Kannada Poetry
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1. Kariheggadeya Magalu- B.M.Sri 2. Hunnime Ratri- Kuvempu 3. Anna Yagna-Bendre 4.Mankuthimmana Kagga-D.V.G 5.Ikkala- K.S. Narasimha Swamy 6. Kannad padgol- G.P.Rajarathnam 7.Hanathe hachchuttene- G.S.S 8.Adugemane Hudugi-Vaidehi 9. Nehru Nivruttaraguvudilla- Adgaru 10. Nanna Janagalu.-Siddalingaiah | ||||||||||||||
Unit-2 |
Teaching Hours:20 |
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Autobiography- Uchalya- Lakshman Gayekwad (Marathi)
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Text: Uchalya Author:Lakshman Gayekwad Translation: Chandrakantha Pokle
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Unit-3 |
Teaching Hours:10 |
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Creative Writings
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1 Dialogue Writing 2 Essay writing 3 short story building | ||||||||||||||
Text Books And Reference Books: 1. English Geethegalu- Sri, Publishers: B.M.Sri Smarka Prathistana, Bangalore-19 (2013) 2. Kannada Sahitya Charithre- Volumes 1-4, Editor: G. S. Shivarudrappa, Prasaranga, Bangalore Univeristy. 3. Hosagannada Kavitheya Mele English Kavyada Prabhava- S. Ananthanarayana 4. Hosagannadada Arunodaya- Srinivasa Havanuru | ||||||||||||||
Essential Reading / Recommended Reading 1. Hosagannda Sahitya- L.S. Sheshagiri Rao 2. Kannada Sahitya Sameekshe- G. S. Shivarudrappa 3. Bhavageethe- Dr. S. Prabhushankara 4. My Experiments with Truth- M.K. Gandhi 5. Ouru Keri- Siddalingaiah | ||||||||||||||
Evaluation Pattern
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SAN321 - SANSKRIT (2022 Batch) | ||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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Sundara Kanda is the only chapter of the Ramayana in which the hero is not Rama, but rather Hanuman. The work depicts the adventures of Hanuman and his selflessness, strength, and devotion to Rama are emphasized in the text. Bhoja only wrote 5 kāṇdas (up to the Sundarakāṇda), and there is a story about this: that he was inspired to write this work the night before a battle, that as he finished the Sundarakāṇda it was time to go, and that he announced that the Yuddhakāṇda would be enacted in the battlefield against the invader, but sadly he never returned. Others have composed a Yuddhakāṇda to complete the work. The main objective of the students is to understand the champu Kavyas based on the sam. The Origin and development of the Champu. |
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Learning Outcome |
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CO1: To analyse the content of the text in detail with examples CO2: To Deliberate the classification and characters of the epic CO3: To understand the delight of the text. CO4: To demonstrate an increased ability to read and understand Sanskrit texts CO5: To understand the prefixes and suffixes and changing the sentences in grammar. |
Unit-1 |
Teaching Hours:35 |
champu
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Origin and developmetn of Champu kavyas Five Important Champus Level of knowledge: Basic/conceptual/ Analytical Shlokas 1 -60 Hnumantha¨s voyage to Lanka and searching for Seetha Description of city Lanka , Characters of Champu Kavya | |
Unit-2 |
Teaching Hours:5 |
Grammar
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Prayogas and Krudantha | |
Unit-3 |
Teaching Hours:5 |
Language skills
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Translation of Given passage from English to Sanskrit Writing composition in sanskrit on the given topic in Sanskrit | |
Text Books And Reference Books:
Sundarakanda from Bhaja´s Champu Ramayana Chitrakalayaa: ugagamam vikaasam ca origin and development of painting through Vedas and Puranas
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Essential Reading / Recommended Reading
Reference Books:-
1) Sundarakanda from “Champuramayana of Bhoja 2) Sanskrit Grammar by M.R. Kale. 3) History of Sanskrit literature by Dr.M.S. Shivakumaraswamy. 4) History of Sanskrit literature by Krishnamachari.
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Evaluation Pattern CIA 1 Wikipedia assignment CIA 2 mid semester examination CIA 3 Wikipedia assignment | |
TAM321 - TAMIL (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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Araillakiyam, bakthi illakiyam, ikala illakiyamn the major allakiyams.The influence myths and puranas are delineated through the good deeds for a better lifestyle.The Cultural Studies part will have an overview of Indian painting both traditional and modern with special reference to mythology and literature India 2020- Abdul Kalam
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Learning Outcome |
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CO1: Recall and categorize the concepts of literature. CO2: Understand the true essence of the texts, and inculcate them in their daily lives. CO3: Recognize and apply the moral values and ethics in their learning. CO4: Comprehend the concepts in literature and appreciate the literary text. |
Unit-1 |
Teaching Hours:10 |
Ara illakiyam
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1. Thirukural 2. Avvai kural | |
Unit-2 |
Teaching Hours:10 |
Bhakthi illakiyam
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1. Thiru vasagam 2. Kambar andhadhi
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Unit-3 |
Teaching Hours:10 |
Ik kaala illakiyam
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Naatu pura padalgal | |
Unit-4 |
Teaching Hours:10 |
Prose
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India 2020- Dr. Abdul Kalam | |
Unit-5 |
Teaching Hours:3 |
Common Topic and visual text
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1. Common topic: Oviyam 2. Visual text : nattupuviyal | |
Unit-6 |
Teaching Hours:2 |
Grammer
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Sollu illakanam | |
Text Books And Reference Books:
Thirukkural-Bhoombugar pathipagam- puliyur kesigan urai, Chennai- 08 Kammbarin Ainthu noolgal- Vanathi pathupagam- Dr. R. Rajagopalachariyar, Chennai- 18 Nathu pura illakiyam- Ki Va jaganathan- malai aruvi- Monarch achagam- chennai India 2020- APJ Abdul kalam- puthaiyuram aandugaluku aga oru thoali nooku, New century book house, chennai
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Essential Reading / Recommended Reading
Thirukkural-Bhoombugar pathipagam- puliyur kesigan urai, Chennai- 08 Kammbarin Ainthu noolgal- Vanathi pathupagam- Dr. R. Rajagopalachariyar, Chennai- 18 Nathu pura illakiyam- Ki Va jaganathan- malai aruvi- Monarch achagam- chennai India 2020- APJ Abdul kalam- puthaiyuram aandugaluku aga oru thoali nooku, New century book house, chennai Tamizhar nattup padagal - N Vanamamalai, New century book house, Chennai
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Evaluation Pattern
EXAMINATION AND ASSIGNMENTS: There is a continuous evaluation both at the formal and informal levels. The language skills and the ability to evaluate a text will be assessed This paper will have a total of 50 marks shared equally by End Semester Exam (ESE) and Continuous Internal Assessment (CIA) While the ESE is based on theory the CIA will assess the students' critical thinking, leadership qualities, language skills and creativity | |
ZOO331 - ANIMAL PHYSIOLOGY AND BIOCHEMISTRY (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:100 |
Credits:4 |
Course Objectives/Course Description |
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This course aims to understand the functioning of various organs in the human body and their inter relationship and the various metabolic processes such as absorption and energy production. Also to facilitate students about applications physiology and biochemistry in medicine, drugs and research. |
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Learning Outcome |
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CO 1: Understand the fundamental aspects of various physiology like digestion, circulation, excretion, reproduction, endocrine system etc. CO 2: Understanding of physiology and biochemistry through scientific investigation into the nature of mechanical, physical, and biochemical functions of humans, their organs, and the cells that make them up. CO 3: Imparting the importance of metabolism of bio-molecules in normal physiology of man. CO 4: Understand and compare the different anatomical and function aspects of various organs in our body. CO 5: Providing the basic knowledge of abnormal metabolism of biomolecules in man. |
Unit-1 |
Teaching Hours:6 |
Digestion
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Functional anatomy of the digestive system, Physiology of digestion in the alimentary canal; Absorption of carbohydrates, proteins, lipids, minerals and vitamins; Role of gastrointestinal hormones on the secretion and control of enzymes of Gastrointestinal tract; Gastric ulcers | |
Unit-2 |
Teaching Hours:6 |
Cardiovascular system
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Structure of Heart, Coronary circulation Origin and conduction of the cardiac impulse, Cardiac cycle, Composition of the blood, Hemostasis, blood group and Rh factor. | |
Unit-3 |
Teaching Hours:5 |
Respiration
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Pulmonary ventilation, Respiratory volumes and capacities, Respiratory pigments, Transport of Oxygen and carbon dioxide in blood (Bohr effect and Haldane effect), pulmonary diseases. | |
Unit-4 |
Teaching Hours:5 |
Excretion
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Structure of nephron, Ammonotelism, Uricotelism and Ureotelism with examples, Mechanism of Urine formation, Counter-current Mechanism, types of dialysis, ARF & CRF. | |
Unit-5 |
Teaching Hours:8 |
Nerve and muscle
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Structure of a neuron, Resting membrane potential, Graded potential, Origin of Action potential and its propagation in myelinated and non-myelinated nerve fibres, Types of muscles; striated, non-striated and cardiac muscles. Ultra-structure of striated muscles. Ultra-structure of skeletal muscle, Molecular and chemical basis of muscle contraction. | |
Unit-6 |
Teaching Hours:7 |
Reproduction and Endocrine Glands
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Physiology of male reproduction: hormonal control of spermatogenesis; Physiology of male reproduction: hormonal control of the menstrual cycle, Structure and function of Pituitary, Thyroid, Parathyroid, Pancreas and Adrenal glands | |
Unit-7 |
Teaching Hours:6 |
Biomolecules
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Structures and properties of important mono, di- and polysaccharides; fatty acids, triglycerides and steroids; and amino acids. | |
Unit-8 |
Teaching Hours:6 |
Carbohydrate Metabolism
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Glycolysis, Kreb’s Cycle, Pentose phosphate pathway, Gluconeogenesis, Glycogen metabolism, Review of electron transport chain. | |
Unit-9 |
Teaching Hours:4 |
Lipid Metabolism
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Biosynthesis and β-oxidation of palmitic acid and steric acid; Ketogenesis and its regulation. | |
Unit-10 |
Teaching Hours:4 |
Protein metabolism
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Transamination, Deamination and Urea Cycle | |
Unit-11 |
Teaching Hours:6 |
Enzymes
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Introduction, Nomenclature and classification of enzymes, Mechanism of action, Enzyme Kinetics, Inhibition and Regulation. | |
Text Books And Reference Books: 1. Tortora, G.J. and Derrickson, B.H. (2009). Principles of Anatomy and Physiology, XII Edition, John Wiley & Sons, Inc. 2. Widmaier, E.P., Raff, H. and Strang, K.T. (2008) Vander’s Human Physiology, XI Edition., McGraw Hill | |
Essential Reading / Recommended Reading 1. Guyton, A.C. and Hall, J.E. (2011). Textbook of Medical Physiology, XII Edition, Harcourt Asia Pvt. Ltd/ W.B. Saunders Company. 2. Berg, J. M., Tymoczko, J. L. and Stryer, L. (2006). Biochemistry. VI Edition. W.H Freeman and Co. 3. Nelson, D. L., Cox, M. M. and Lehninger, A.L. (2009). Principles of Biochemistry. IV Edition. W.H. Freeman and Co 4. Murray, R.K., Granner, D.K., Mayes, P.A. and Rodwell, V.W. (2009). Harper’s Illustrated Biochemistry. XXVIII Edition. Lange Medical Books/Mc Graw3HillRL Kotpal A text book of Animal diversity, Rastogi publications | |
Evaluation Pattern Internal Assessment: CIA 1(Quiz/ Tests/ MCQs/ Assignments) - 20 marks; CIA 2 (Midsemester Examination) 50 marks; CIA 3 (Quiz/ Tests/ MCQs/ Assignments - 20 marks) External Assessment: End Semester Examination - 100 marks Both the assessments will be scaled down to 50 | |
ZOO351 - ANIMAL PHYSIOLOGY AND BIOCHEMISTRY LAB (2022 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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To provide the physiology and biochemistry of various vital activities such as metabolic activities, blood circulation, respiration, metabolic waste excretion, impulse conduction, and endocrine mechanisms of reproduction in vertebrates, particularly humans. |
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Learning Outcome |
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CO1: Perform the various physiological experiments. CO2: Understand the histological methods of various organs CO3: Know the various methods of biochemistry that can related with human physiology and disorders. |
Unit-1 |
Teaching Hours:10 |
Animal Physiology Lab
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1. Cardio Pulmonary Resuscitation demonstration 2. Oxygen consumption by fish 3. Measurement of blood pressure using Mercury Sphygmomanometer 4. Histology of mammalian organs – Liver, Pancreas, Kidney, Intestine, 5. Scientific drawing of microscopic specimens using a prism type Camera Lucida 6. Micrometry of cell types | |
Unit-2 |
Teaching Hours:20 |
Biochemistry Lab
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1. Qualitative tests to identify functional groups of carbohydrates in given solutions (Glucose, Fructose, Sucrose, Lactose) 2. Estimation of total protein in given solutions by Lowry’s method. 3. Study of activity of salivary amylase under optimum conditions: Effect of temperature, pH and Concentration 4. Preparation of solution (Molarity, Normality, ppm, percentage etc.) 5. Estimation of Carbohydrate in the given solution by Anthrone method or DNS Method 6. Quantitative estimation of amino acids by Ninhydrin method. 7. Estimation of serum cholesterol 8. Estimation of ammonia and Uric acid | |
Text Books And Reference Books: 1. Tortora, G.J. and Derrickson, B.H. (2009). Principles of Anatomy and Physiology, XII Edition, John Wiley & Sons, Inc. 2. Widmaier, E.P., Raff, H. and Strang, K.T. (2008) Vander’s Human Physiology, XI Edition., McGraw Hill. | |
Essential Reading / Recommended Reading 1. Guyton, A.C. and Hall, J.E. (2011). Textbook of Medical Physiology, XII Edition, Harcourt Asia Pvt. Ltd/ W.B. Saunders Company 2. Berg, J. M., Tymoczko, J. L. and Stryer, L. (2006). Biochemistry. VI Edition. W.H Freeman and Co Recommended References 3. Nelson, D. L., Cox, M. M. and Lehninger, A.L. (2009). Principles of Biochemistry. IV Edition. W.H. Freeman and Co 4. Murray, R.K., Granner, D.K., Mayes, P.A. and Rodwell, V.W. (2009). Harper’s Illustrated Biochemistry. XXVIII Edition. Lange Medical Books/Mc Graw3HillRL Kotpal A text book of Animal diversity, Rastogi publications | |
Evaluation Pattern Internal Assessment: Performance - 20 marks; Midsemester Examination) 20 marks; record - 10 marks) External Assessment: End Semester Examination - 50 marks Both the assessments will be scaled down to 25 | |
AEN421 - ADDITIONAL ENGLISH (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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This course is taught in the second year for students from different streams, namely BA, BSc and B Com. If the first year syllabus is an attempt by the Department of English, Christ University to recognize and bring together the polyphonic Indian voices in English and Indian regional literatures in translation for the Additional English students of the first year, the second year syllabus intends to take that project a little further and open up the engagement of the students to texts from across the world. The syllabus - selection of texts will concentrate on readings from South Asian, Latin American, Australian, Canadian, and Afro-American. It will voice subaltern concerns of identity, gender, race, ethnicity and problems of belongingness experienced by humanity all over the globe. The syllabus will extend the concerns of nation and nationality and marginalization, discussed within the Indian context to a more inclusive and wider global platform. We have consciously kept out ‘mainstream’ writers and concentrated on the voices of the subalterns from across the world. There is an implicit recognition in this project that though the aspects of marginalization and the problems facing subalterns are present across cultures and nations, the experiences, expressions and reflections are specific to each race and culture. The course will address these nuances and specificities and enable our students to become more aware and sensitive to life and reality around them. This will equip the students, who are global citizens, to understand not just the Indian scenario, but also situate themselves within the wider global contexts and understand the spaces they will move into and negotiate in their future.
There is a prescribed text book Blends: Voices from Margins for the second year students, compiled by the Department of English, Christ University and intended for private circulation. The course objectives are · to introduce the students to look at different cultures through Literature · to help students develop an understanding of subaltern realities and identity politics · to inculcate literary sensibility/taste among students across disciplines · to improve language skills –speaking, reading, writing and listening · to equip the students with tools for developing lateral thinking · to equip students with critical reading and thinking habits · to enable them to grasp and appreciate the variety and abundance of subaltern writing, of which this compilation is just a glimpse · to actively engage with the world as a cultural and social space (to be facilitated through proactive CIAs which help students to interact and engage with the realities they face everyday and have come across in these texts) · to learn and appreciate India and its place in the world through association of ideas in the texts and the external contexts
· to reiterate the study skills and communication skills they developed in the previous year and extend it. |
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Learning Outcome |
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CO1 : CO1: To understand the socio- political concerns in various literatures through short stories, poems and essays
CO2: CO2: To critically read and articulate the non- canonised literatures
CO3: CO3: To analyse and apply these textual themes in a multi- cultural, global and professional space
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Unit-1 |
Teaching Hours:12 |
Novella
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Unit 1: Novella · Viktor Frankl: “Man’s Search for Meaning”(Excerpts)
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Unit-2 |
Teaching Hours:12 |
Short Stories
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Short Story · Anton Chekov: “The Avenger” · Chinua Achebe: “Marriage is a Private Affair” · Nadine Gordimer: “Train from Rhodesia”
· Wakako Yamuchai: “And the Soul Shall Dance” | |
Unit-3 |
Teaching Hours:12 |
Poetry
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Poetry 12 hrs · Octavio Paz: “As One Listens to the Rain” · Jamaica Kincaid: “Girl” · Derek Walcott: “A Far Cry from Africa”
· Joseph Brodsky: “Freedom” | |
Unit-4 |
Teaching Hours:9 |
Essays
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· Alice Walker: Excerpts from “In Search of My Mother’s Gardens” · Hannah Arendt: “Men in Dark Times” Dalai Lama Nobel Acceptance Speech
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Text Books And Reference Books: Blends Book II Viktor Frankl's "Man's Search for Meaning" | |
Essential Reading / Recommended Reading Elie Wiesel "Night" Diary of Anne Frank Famous Nobel Lectures | |
Evaluation Pattern CIA 1: A written test for 20 marks. It can be an Open Book test, a classroom assignment, an objective or descriptive test pertaining to the texts and ideas discussed in class. CIA2: Mid-semester written exam for 50 works
CIA 3: This is to be a creative test/ project in small groups by students. They may do Collages, tableaus, skits, talk shows, documentaries, Quizzes, presentations, debates, charts or any other creative test for 20 marks. This test should allow the students to explore their creativity and engage with the real world around them and marks can be allotted to students depending on how much they are able to link the ideas and discussions in the texts to the world around them. | |
BTY431 - GENETIC ENGINEERING (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:100 |
Credits:4 |
Course Objectives/Course Description |
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The aim of this course is to provide an introduction to recombinant DNA technology. It helps the students to understand how the principles of molecular biology have been used to develop techniques in recombinant DNA technology. |
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Learning Outcome |
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CO1: Examine the basic concepts in genetic engineering - enzymes, cloning vehicles, gene
libraries, analysis and expression of the cloned gene in host cells and understand ethical issues and biosafety regulations. CO2: Illustrate the practical applications of genetic engineering tools in the field of health
care. CO3: Plan recombinant DNA techniques essential for taking up projects in the field of
Biotechnology. CO4: Gives information about gene cloning and various techniques used in genetic
engineering. CO5: Understand the applicationS of genetic engineering. |
Unit-1 |
Teaching Hours:8 |
DNA Modifying and Restriction Enzymes
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Introduction to rDNA technology, DNA modifying enzymes and its functions (DNA Polymerases, Klenow fragment, Ligase, S1 Nuclease, Mung Bean nuclease, Alkaline Phosphatase, Terminal Transferase, Polynucleotide kinases, Polynucleotide phosphorylase, Calf intestinal alkaline Phosphatases, Srimp Alkaline Phosphatases, RNase A, RNase H, DNase 1, DNase II, Exonuclease III, Reverse Transcriptase) Restriction modification system, Restriction enzymes – function, classification (Based on recognition and restriction sequence:-type I, II and III; based on buffer salt concentration: -low, medium and high; based on pattern of restriction:-sticky (5’ and 3’) and blunt end cutters | |
Unit-2 |
Teaching Hours:7 |
Biology of Cloning Vectors and Markers
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Plasmids (Types, copy number, properties, origin of replication and incompatibility group, plasmid amplification), bacteriophages eg. λ (Life cycle, genome organization, feasibility as a cloning vehicle), Types of Cloning Vectors (structure and general features of General Purpose cloning vectors, Expression vectors, Promotor probe Vectors, shuttle vectors), Examples of cloning vectors (pBR322, pUC series of vectors, λ insertional and replacement vectors), derivatives of phages and plasmids (cosmids, phagemids, phasmids) cloning vectors for large DNA fragments and genomic DNA library YACs, PACs and BACs. | |
Unit-3 |
Teaching Hours:7 |
rDNA Technology
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General strategies for isolation of genomic and plasmid DNA, strategies for isolation of gene of interest (restriction digestion, PCR), Creation of r-DNA (Restriction Digestion, modification of vector and insert, linker, adaptors, homopolymer tailing, ligation), PCR Cloning, Selectable and scorable markers,reporter genes. | |
Unit-4 |
Teaching Hours:4 |
Gene transfer methods
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Host and vector consideration, Host Organisms and its genotypes- JM 109 & DH5α, Methods of gene transfer- Calcium chloride mediated, Electroporation, Biolistic gun, lipofection and microinjection. In vitro packaging. | |
Unit-5 |
Teaching Hours:4 |
Gene Libraries and Screening Techniques
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Construction of genomic and cDNA libraries (Selection of vectors and Complexity of library), Immunological screening and colony and plaque hybridization, dot blot hybridization, chromosome walking, FISH | |
Unit-6 |
Teaching Hours:4 |
Expression of cloned DNA
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Protein production by foreign DNA in the host bacteria E. coli, cloning in pET vectors, eukaryotic vectors- Baculovirus based vectors, mammalian viral vectors. | |
Unit-7 |
Teaching Hours:20 |
Molecular Biology Techniques
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Agarose gel electrophoresis, Polyacrylamide gel electrophoresis (PAGE) - Native PAGE and SDS, PAGE – gel casting and running, troubleshooting, Polymerase chain reaction (PCR) - Basic principle, methodology, Gradient PCR, Hot start PCR Touchdown PCR, inverse PCR RT PCR, Real time PCR, Application of PCR. Site directed Mutagenesis – principle, types (PCR and Kunkel Methods), applications, Maxam-Gilbert and Sanger’s dideoxy method of DNA sequencing, automated DNA sequencing, applications, Southern and Northern blot techniques, probe DNA (concept of probe, labelling mechanisms), detection systems-radioactive and nonradioactive. | |
Unit-8 |
Teaching Hours:6 |
Applications of r-DNA Technology and Biosafety and Environmental Safety Considerations
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Examples of genetically modified organisms (animal, plant and microbe), Advantages and disadvantages of Genetically Modified Organisms, Guidelines on rDNA technology in India, Production of recombinant proteins (Insulin), recombinant vaccines (Hepatitis B), Hormones (Human growth hormone). Genome projects and its Applications. | |
Text Books And Reference Books: 1. Alkami Quick Guide for PCR A laboratory reference for the Polymerase Chain Reaction, USA. Alkami Biosystems Inc., 1999. 2. K. Wilson and J. Walker, Principles and Techniques of Biochemistry and Molecular Biology,7th ed. New York: Cambridge University Press, 2010. 3. T. A. Brown, Gene Cloning and DNA Analysis-An Introduction. 5th ed. UK: Wiley Blackwell Publishers. 2006. | |
Essential Reading / Recommended Reading 1. E. L. Winnacker, From Genes to Clones Introduction to Gene Technology, New Delhi, India: Panima Publishing Corporation, 2003. 2. B. R. Glick. J. J. Pasternak and C. L. Patten. Molecular Biotechnology: Principles and application of recombinant DNA. 4th ed. Washington D. C: American Society for Microbiology Press, 2010. 3. S. B. Primrose, R. M. Twyman and R. W. Old, Principles of Gene Manipulation, 6 th ed. USA: Wiley-Blackwell, 2001. 4. J. W. Dale, M. von Schantz and N. Plant, From Genes to Genomes: Concepts and Applications of DNA Technology, USA: John Wiley & Sons Inc., 2012. | |
Evaluation Pattern CIA1- 10% CIA2- 25% CIA3- 10% Attendance - 5% ESE- 50% | |
BTY451 - GENETIC ENGINEERING LAB (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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Modern Biotechnology relies on rDNA technology. This paper will equip the student with all the basic rDNA methods and protocols. |
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Learning Outcome |
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CO1: Covers the basic experiments and methods related to the rDNA technology. CO2: Helps the students to understand and experience the methods and steps involved in cloning a DNA molecule and making of rDNA. CO3: Imparts basis ideas on protein purification. CO4: Helps the students to get familiarized with various techniques important in genetic engineering. CO5: Students will be able to perform electrophoretic separation of biomolecules. |
Unit-1 |
Teaching Hours:60 |
Experiment details
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1. Isolation of genomic DNA from bacteria, plant and animal tissue 2 Isolation of plasmid DNA (E. coli) by alkaline lysis method 3 Separation of DNA by Agarose Gel Electrophoresis 4 Expression of a gene in E. coli 5. Restriction Digestion 6. Ligation 7. Transformation 8. Screening of recombinant (Blue-white selection) 9. Screening of recombinants using PCR 10.SDS PAGE Analysis | |
Text Books And Reference Books: 1. J. Sambrook and M. Green. Molecular Cloning: A Laboratory Manual 4 Ed. (3 Volume set). New York: Cold Spring Harbor Laboratory Press, 2012. | |
Essential Reading / Recommended Reading 1. J. Vennison, Laboratory Manual for Genetic Engineering. New Delhi: PHI learning Private ltd, 2009. | |
Evaluation Pattern CIA1-20% (Performance) CIA2-20% (MSE) CIA3-10% (Record)
ESE-50% | |
CHE431 - CHEMISTRY IV-INORGANIC AND PHYSICAL CHEMISTRY (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:100 |
Credits:4 |
Course Objectives/Course Description |
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This course deals with the chemistry of transition elements and the fundamentals of coordination chemistry. In this course also covers studies on gaseous state, liquid state and crystallography.
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Learning Outcome |
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CO 1: Compare the properties of transition elements and bonding in metal complexes. CO 2: Correlate the properties of various phase systems and binary liquid mixtures with their applications. CO 3: Illustrate the structure, bonding, properties and mechanisms of coordination complexes using appropriate theories. CO 4: Discuss the various theories of gases, symmetry, and structural aspects of crystals. |
Unit-1 |
Teaching Hours:6 |
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Section A: Inorganic Chemistry 1. Transition Elements
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Pre learning: General group trends with special reference to electronic configuration variable valency colour magnetic and catalytic properties ability to form complexes and stability of various oxidation states. Latimer diagrams for Mn, Fe and Cu. Lanthanoids: Electronic configurations, oxidation states, colour, magnetic properties, lanthanide contraction, *separation of lanthanides (ion exchange method only). | |||||||||||||||||||||||||||||||||||||||||
Unit-2 |
Teaching Hours:8 |
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2. Coordination Chemistry-I
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Prelearning- Werner’s theory, IUPAC system of nomenclature. Metal- ligand bonding in complexes Valence Bond Theory (VBT): Postulates of VBT, Inner and outer orbital complexes of Cr, Fe, Co, Ni and Cu (coordination numbers 4 and 6). Drawbacks of VBT. Structural and stereoisomerism in complexes with coordination numbers 4 and 6. | |||||||||||||||||||||||||||||||||||||||||
Unit-3 |
Teaching Hours:16 |
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3 Coordination Chemistry-II
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Crystal field effect, octahedral symmetry. Crystal field stabilization energy (CFSE), Crystal field effects for weak and strong fields. Spectrochemical series, Weak and strong ligand fields magnetic and spectral properties of transition metal complexes, Tetrahedral symmetry. Factors affecting the magnitude of Dq. Comparison of CFSE for Oh and Td complexes, Tetragonal distortion of octahedral geometry. Jahn-Teller distortion, Square planar coordination. Limitations of CFT, Evidence for M-L covalent bonding (nephlauxetic effect, NMR and ESR), Introduction to MOT. Labile and inert octahedral complexes, chelate effect. Ligand substitution reaction reactions in octahedral and square planar compexes. Trans effect. Electron transfer and ligand transfer reactions.
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Unit-4 |
Teaching Hours:6 |
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Section B: Physical Chemistry 4. Phase Equilibria
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Phases, components and degrees of freedom of a system, criteria of phase equilibrium. Gibbs Phase Rule and its thermodynamic derivation. Clausius –Clapeyron equation and its importance in phase equilibria. Phase diagrams of one-component systems (water system and sulphur system) and two component systems involving eutectics: KI-water system and lead-silver system-Pattinson’s process. Freezing mixtures-applications.
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Unit-5 |
Teaching Hours:8 |
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5. Binary liquid mixtures
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Prelearning topics: Ideal solutions and Raoult’s law, nonideal solutions, vapour pressure, boiling point. Thermodynamics of ideal solutions: deviations from Raoult’s law – non-ideal solutions. Vapour pressure-composition and temperature-composition curves of ideal and non-ideal solutions. Principle of distillation of non-ideal solutions. Lever rule. Azeotropes. Partial miscibility of liquids: Critical solution temperature; effect of impurity on partial miscibility of liquids. Immiscibility of liquids - Principle of steam distillation.
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Unit-6 |
Teaching Hours:8 |
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7. Gaseous state
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Prelearning topics: Postulates of Kinetic Theory of Gases and derivation of the kinetic gas equation. Deviation of real gases from ideal behaviour, compressibility factor, causes of deviation. van der Waals equation of state for real gases. Boyle temperature (derivation not required). Maxwell Boltzmann distribution laws of molecular velocities and molecular energies (graphic representation – derivation not required) and their importance. Temperature dependence of these distributions. Most probable, average and root mean square velocities (no derivation). Collision cross section, collision number, collision frequency, collision diameter and mean free path of molecules. Critical phenomena, critical constants and their calculation from van der Waals equation. Andrews isotherms of CO2. Joule Thomson effect and inversion temperature.
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Unit-7 |
Teaching Hours:8 |
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8.Crystallography
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Forms of solids-amorphous and crystalline. Symmetry elements, unit cells, crystal systems, Bravais lattice types and identification of lattice planes. Laws of Crystallography - Law of constancy of interfacial angles, Law of rational indices. Weiss and Miller indices. X–Ray diffraction by crystals, *Bragg’s law. Powder method, determination of Avagadro’s number from X ray diffraction. Law of systematic absences. Structures of NaCl, KCl and CsCl (qualitative treatment only). *Imperfections in crystals. Elementary discussion of the liquid crystalline state: Classification, structure and applications.
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Text Books And Reference Books: [1] Cotton, F.A. & Wilkinson, G. Basic Inorganic Chemistry, Wiley, 6th edition, 2007. [2] P. W Atkins, Physical chemistry, 8th ed., Oxford University Press, 2006. | |||||||||||||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading
[1] B. R. Puri and L.R Sharma. Advanced Inorganic Chemistry. Delhi: Shoban Lal Nagin Chand and Sons, 2004. [2] J. D Lee. A New Concise Inorganic Chemistry. 5th ed. London: Chapman & Hall, Wiley Indian Pvt ltd 2008. [3] B.R. Puri, L.R. Sharma, M.S. Pathania, Principles of Physical Chemistry Vishal Publications, 2012. [4] G. M. Barrow Physical chemistry, 5th ed., Tata-Mc Graw Hill, 2006. [5] Glasstone Samuel,Textbook of Physical Chemistry, 2nd ed. Mcmillan, 2007. [6] F. Daniels and F.A Alberty. Physical Chemistry. 4th ed. Wiley, 1996. [7] G.E. Rodgers, Inorganic & Solid State Chemistry, Cengage Learning India Ltd., 2008. [8] F. A. Cotton, G. Wilkinson and P. L. Gaus, Basic Inorganic Chemistry, 3rd edn., John Wiley. [9] Satya Prakash, Advanced Inorganic Chemistry, Volume 1, 5th Edition, S. Chand and Sons, New Delhi, 2012. [10] R. Gopalan, Inorganic Chemistry for Undergraduates, Universities Press, Hyderabad, 2009.
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Evaluation Pattern
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CHE451 - CHEMISTRY PRACTICALS - IV (2022 Batch) | |||||||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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Principles of physical chemistry studied by the students in the theory classes get reinforced. This course introduces the students to various experiments on electrochemistry, ionic equilibria and thermometry. It emphasizes the importance of organized and systematic approach in carrying out experiments.
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Learning Outcome |
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CO1: Analyze the phase changes occurring due to change in temperature and concentration of a sample mixture. CO2: Evaluate the pH, conductance and potential of the compounds and BOD and COD of water samples. |
Unit-1 |
Teaching Hours:30 |
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Section A:Physical Chemistry
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1. Chemical Kinetics Study the kinetics of the following reactions. a) Initial rate method: Iodide-persulphate reaction b) Integrated rate method: Acid hydrolysis of methyl acetate with hydrochloric acid. c) Saponification of ethyl acetate. 2. Distribution Study of the equilibrium of one of the following reactions by the distribution method: a) Benzoic acid between toluene and water b) Cu2+(aq) + xNH2(aq) ------- [Cu(NH3)x]2+ 3. Phase equilibria a) Construction of the phase diagram of a binary system (simple eutectic) using cooling curves. b) Study of the variation of mutual solubility temperature with concentration for the phenol water system and determination of the critical solubility temperature. c) Determination of the critical solution temperature and composition of the phenol water system and Study of the effect of impurities on critical solution temperature and composition of the phenol water
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Unit-1 |
Teaching Hours:30 |
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Section B: Inorganic Chemistry
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4. Determination of dissolved CO2 in water samples. 5. Determination of dissolved oxygen in water. $ 6. Determination of Chemical Oxygen Demand (COD) $ 7. Determination of Biological Oxygen Demand (BOD)
8. Determination of Percentage of available chlorine in bleaching powder.
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Text Books And Reference Books: [1] Svehla, G. Vogel’s Qualitative Inorganic Analysis, Pearson Education, 2012.
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Essential Reading / Recommended Reading [1] Khosla, B. D.; Garg, V. C. & Gulati, A. Senior Practical Physical Chemistry, R. Chand & Co.: New Delhi (2011).
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Evaluation Pattern
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ENG421 - ENGLISH-IV (2022 Batch) | |||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:2 |
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Course Objectives/Course Description |
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This syllabus is meant to cater to all the three streams- B.A., B.Sc.and B.Com therefore the selection of units, has been done keeping in mind the general needs of students from these different backgrounds. Topics of universal concern, appeal and relevance have been included to sustain the interests of all students.
The selection of topics also progresses in complexity with each semester, enabling the students to gradually progress into more serious and sustained patterns of reading and become increasingly perceptive and conscious of their own selves and the world they see around them.In a nutshell we aim to bring out a text that will empower the holistic development of every student.
In addition, the selection of topicsis also heavily based on skill sets identified to be taught. Topics are carefully chosen to integrate appropriate language and communication skills among students. The specific focus of these two semesters is to build employability skills among them and to this effect, we have career advancement skills and employability skills based units. The learners will be exposed to various skill sets required to be able to handle various requirements both in their academic and workplaces.
Course Objectives:
· To enable learners to develop reading comprehension for various purposes
· To enable learners to develop writing skills for academic and professional needs
· To enable learners to develop the ability to think critically and express logically
· To enable learner to communicate in a socially and ethically acceptable manner
· To enable learners, to read, write and speak with clarity, precision and accuracy
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Learning Outcome |
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CO1: Ability to judge audience requirements in oral and written communication and communicate accordingly. CO2: Ability to use specific styles in communication and understand workplace structures and requirements to communicate CO3: Lead and participate in seminars and group discussions more effectively and with increased confidence. |
Unit-1 |
Teaching Hours:10 |
Emotional Intelligence
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Self-awareness
Stress management
Assertive skills
Critical thinking
Creative problem solving and decision making
Appreciative inquiry
Conflict resolution
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Unit-2 |
Teaching Hours:10 |
Professional skills
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Unit-3 |
Teaching Hours:10 |
Workplace skills
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Interview skills
Professional etiquette
Elevator pitch
Teleconference
Video conference
Conference calls
Negotiation
Networking
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Unit-4 |
Teaching Hours:10 |
Feature writing
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Writing for advertisement
Developing web content
Infographics
Emails
Making notes in meetings
Minutes
Newspaper writing
Press release
Blog writing
Tender
Memo
Brochure
User manual
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Text Books And Reference Books: NIL | |
Essential Reading / Recommended Reading ENGLOGUE 2 | |
Evaluation Pattern
CIA 1: Classroom assignment/test/ written or oral tasks for 20 marks keeping in tune with the course objectives and learning outcomes.
CIA 2: Mid-semester for 50 marks.
CIA 3: Collage, tableaus, skits, talk shows, documentaries, Quizzes or any creative assignments. End- semester 50 marks
End Semester Exam: 2 hrs
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FRN421 - FRENCH (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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French as a second language in the UG program. The method Génération A2 consists of a student's book and an activity book, both included in the digital manual. It consists of 6 units preceded by an initial section of 'Welcome'. Continuing from where A1 left, it aims to enhance learning skills further. The structure of each unit marks a real learning journey into different aspects of the French language and culture.
Course Objectives · To develop linguistic competencies and sharpen oral and written communicative skills further · To enhance awareness of different aspects of francophone civilization. · To enrich the learner’s vocabulary · To enable learners to engage in and discuss simple topics with ease
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Learning Outcome |
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CO1: To familiarize students with the French culture and traditions. CO 2: To equip students with correct grammar, vocabulary and pronunciation. CO3: To enhance communicative skills. CO 4: To make them well versed in all the four language skills. CO5: To make them ready for A2 level Exams. |
Unit-1 |
Teaching Hours:10 |
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Festivals and traditions in France
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Lesson 1: Let’s do the housework! Lexicon – Lodging, the house, rooms Grammar – The progressive present tense , possessive pronouns, negative form Speech act – Protesting and reacting Lesson 2: About lodging Lexicon – Furniture and equipment, household tasks Grammar – Some adjectives and indefinite pronouns, verbs ‘to read, to break up and to complain’ Speech act – Expressing interest and indifference | ||||||||||||||||||||||
Unit-2 |
Teaching Hours:5 |
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Drama
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Molière’ s L’Avare – Français facile -Act III Sc 8 onwards | ||||||||||||||||||||||
Unit-3 |
Teaching Hours:10 |
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Culture and tradition
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Lesson 1: All in form! Lexicon – The human body: exterior / interior, sickness and medicines Grammar – Simple past tense and imperfect, recent past, expression of duration Speech act – Narrating in the past tense Lesson 2: Accidents and catastrophes Lexicon – Accidents, natural catastrophes Grammar – Adjectives and indefinite pronouns: nothing, no one, verbs ‘to say, to run, to die’ Speech act – Expressing fear and reassuring
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Unit-4 |
Teaching Hours:5 |
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Drama
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Molière’ s L’Avare – Français facile -Act IV | ||||||||||||||||||||||
Unit-5 |
Teaching Hours:10 |
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French outside of France
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Lesson 1: Studying abroad, Happy journey Lexicon – The educational system, formalities to go abroad Grammar – Demonstrative pronouns, simple future tense, situating in time Speech act – Expressing one’s opinion, Lesson 2: The weather Lexicon – The weather Grammar –Me too, not me, impersonal verbs, verbs ‘ to believe, to follow and to rain’ Speech act – Speaking about the weather, speaking about the future | ||||||||||||||||||||||
Unit-6 |
Teaching Hours:5 |
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Drama
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Molière’ s L’Avare – Français facile -Act V
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Text Books And Reference Books: 1. Cocton, Marie-Noelle. Génération A2. Paris : Didier, 2016 2. Molière, L’Avare – Français facile
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Essential Reading / Recommended Reading 1. French websites like Bonjour de France, Fluent U French, Learn French Lab, Point du FLE etc.
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Evaluation Pattern
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HIN421 - HINDI (2022 Batch) | ||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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Course Description: The detailed text-book "Ashad ka ek din” is a drama by Mohan Rakeshi, one of the eminent writers of modern Hindi Literature. Hindi journalismis is one of the major unit of this semester. Phrases, idioms, technical and scientific terminology are included in this semester to improve the literary skills. Course Objectives: Through the prescribed play and the theatre performance, students can go through the process of experiential learning. Study of Mass media enables them to get practical training. Phrases, idioms, technical and scientific terminology sharpen the language skills of the students.
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Learning Outcome |
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CO1 : Understand the nuances of Hindi theatre. CO2: Create awareness of the social issues. CO3: Improve the skill of critical analysis. CO4: Develop the writing skills for media. |
Unit-1 |
Teaching Hours:15 |
Natak- Ashad Ka Ek Din (Play) by Mohan Rakesh
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Madhavi (Play) ByBhishma Sahni. Rajpal and Sons, New Delhi - 110006 Level of knowledge: Analitical | |
Unit-2 |
Teaching Hours:15 |
SancharMadhyam
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Level of knowledge: Conceptual | |
Unit-3 |
Teaching Hours:15 |
Phrases, Idioms. and Scientific and Technical Terminology
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1. 50 Nos. Phrases and Idioms for writing the meaning and sentence formation. 2. 100 Nos. (Hindi equivalent) Level of knowledge: Basic | |
Text Books And Reference Books:
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Essential Reading / Recommended Reading 1. News reporting and writing: By Mencher,Melvin.. 2. Hindi PatrakaritakaIthihas:By Jagadeesh Prasad Chaturvedi 3. HindiPatrakaritaSwaroopEvamSandarbh: By Vinod Godare 4. Media Interview: By Philip Bell,Theovanleeuwen.
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Evaluation Pattern CIA-1(Digital learning) CIA-2(Mid sem exam) CIA-3((Wikipedia-Article creation) End sem exam | |
KAN421 - KANNADA (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:50 |
Credits:03 |
Course Objectives/Course Description |
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The course introduces the rich Kannada language and helps students to read and write the Regional language effectively. The prescribed text ‘Kalagnani Kanaka’ (Kanaka, the visionary) is all about 15th century poet, saint and philosopher of the Haridasa Bhakti tradition. “Kanaka’s writings touch on all aspects of truth and social reality’ said K.R. Nagaraj, literary critic and the author of the Kalagnani Kanaka play. “Kanaka’s poetry is dense with rhyme, rhythm, meter and rich descriptions. He upholds social justice while addressing the issues of the time-caste and class differentiation and gender oppression, for example. Contrary to popular belief, he never confined himself to any one philosophical tradition- Advaita, Dwaita or Vishistadwaitha” ‘Kannadada Moovattu Kathegalu’ is another prescribed text. Through this text the students are exposed to the writings of Koradkal Sreenivasa Rao, K. P. Poornachandra Tejaswi, Masti Venkatesha Iyengar, G. P. Basavaraj and others. Short stories help students in harnessing creative writing skills. |
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Learning Outcome |
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CO1: Reflects the tradition of old & the new CO2: Helps to create dialogue writing CO3: Identify key points in stories CO4: Understand the ideologies during British rule CO5: Expose to Dasa Sahitya movement |
Unit-1 |
Teaching Hours:20 |
Kalagnani Kanaka- K.R. Nagaraj
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Act- 1 Act- 2 Act- 3 Act- 4 Act- 5 Act- 6 | |
Unit-2 |
Teaching Hours:20 |
Selected short stories (Kannadada Moovatttu Kathegalu) Edited by: Fakir Mohammed katpadi, Krishnamurthy Hanur Publication: Sahitya Academy,2018
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1. Dhaniyara Sathyanarayana-Koradkal Sreenivasa Rao 2. Thabarana Kate- K. P. Poornachandra Tejaswi 3. Gowthami Helida Kathe- Masti Venkatesha Iyengar 4. Raja mattu Hakki- G. P. Basavaraj | |
Unit-3 |
Teaching Hours:5 |
Language Skills
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Essay Writing/ Letter Writing/ Dialogue writing | |
Text Books And Reference Books: 1. Adhunika Kannada Nataka: K.M. Marualasiddappa 2. Kannada Rangabhoomi; L.S. Shesshagiri Rao 3. Kannada Sanna Kathegala Olavu- Giradi Govinda Raju 4. Tabarana Kathe- Kannada Screen play by Girish Kasaravalli
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Essential Reading / Recommended Reading 1. Adhunika Kannada Nataka: K.M. Marualasiddappa 2. Kannada Rangabhoomi; L.S. Shesshagiri Rao 3. Kannada Sanna Kathegala Olavu- Giradi Govinda Raju 4. Tabarana Kathe- Kannada Screen play by Girish Kasaravalli
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Evaluation Pattern CIA- Wikipedia Article writing -20 marks CiA-2 Mid Semester Exams- 50 marks CIA-3 Wikipedia Article writing- 20 marks End Semester Exams- 50 marks | |
SAN421 - SANSKRIT (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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Avimarakam by Bhasa is the drama prescribed as a text and approved in the B.O.S. It is sociological drama which explains about the society. . This drama is an imaginary composition of Bhasa . The concept and drama skills expresses the beauty of the style of the author Bhasa. He creates the characters and the incidents are naturally created. Grammar will also be studied. |
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Learning Outcome |
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CO1: To Understand the style and development of the play CO2: To learn the linguistic skills of the drama. CO3: To Deliberate the classification and characteristics of the play CO4: To Understand the features of play CO5: To understand the basic structural nuances of Panini?s grammar |
Unit-1 |
Teaching Hours:35 |
Canto 1-5
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Avimarakam of Balagovindaha Jha Origin and development of Nataka to understand the different theories and original nature of Sanskrit dramas. Avimarakam by Balagovind jha provides an insight to sociological life .Basic grammer only rules are given for usage in composition. Language component will help for proper usage of Sanskrit language. Level of knowledge: Basic/conceptual/ Analytical Avimaraka meeting kurangi and Avimaraka engtering into the mansion of Kurangi | |
Unit-2 |
Teaching Hours:5 |
Grammar
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Karaka prakaranam Vykarana vishesha | |
Unit-3 |
Teaching Hours:5 |
Language skills
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Translation of given passage from English to Sanskrit Writing an article in Sanskrit on the given topics | |
Text Books And Reference Books:
Avimarakam by Balagovind jha | |
Essential Reading / Recommended Reading
Books for Reference: - 1. “Avimarakam” by Balagovinda Jha 2. Basanatakachakram of choukamba edition. 3. Sanskrit dramas by a.B.Keith 4. Sanskrit grammar by M.R.Kale. | |
Evaluation Pattern CIA 1 Wikipedia assignments CIA 2 Mid semester examinations CIA 3 Wikipedia assignments | |
TAM421 - TAMIL (2022 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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A new concept, cultural studies, will take the students beyond prescribed syllabus to include music, theatre, painting, and films out of which the art form of music is taken up for the first semester. Aram poetry- Ara nericharam specifies life discipline and standards, which would pave a successful life for the students. Bhakthi ilakiya- them bhavani, cheerapuranam, thirumandiram is inclined towards ritual practices. Kaapiyam with its historical values provides an understanding about life in a mature way. |
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Learning Outcome |
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CO1: Recall and categorize the concepts of literature.
CO2: Understand the true essence of the texts, and inculcate them in their daily lives. CO3: Recognize and apply the moral values and ethics in their learning. CO4: Comprehend the concepts in literature and appreciate the literary text. |
Unit-1 |
Teaching Hours:10 |
Kappiyam
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seevaga sindhamani. Thirumular Thirumandhiram These topics coherently plays a significant role in inclination towards spiritual aspects of life. It puts for the religious beliefs and entitles each one to understand the rituals and practices. | |
Unit-2 |
Teaching Hours:10 |
Ara illakiyam
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Aranericharam- Munai padaiyaar The text acustoms the core values and ethics with the ideological guidelines and ways of living. | |
Unit-3 |
Teaching Hours:10 |
Bakthi illakiyam
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Thembavani Seera puranam Thiru mular, thiru mandhiram The text elicits the importance of rituals and beliefs.
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Unit-4 |
Teaching Hours:10 |
Prose
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Nadagam 1. Irakam yenge- C N Anna Dhorai 2. Theervu - Indhra partha sarathi 3. Soothradharam- Puvi Arasu 4. Karumbum Kalliyum- Komal saminadhan 5. Palaavku thookigal - Dr. A. Ramasamy 6. Pei ottam- Dr. K A Guna Sekaran
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Unit-5 |
Teaching Hours:1 |
Grammer
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Vetrumai orupugal | |
Unit-6 |
Teaching Hours:4 |
Common topic
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Tamizhil pudhirgalum, pazhamozhigalum | |
Text Books And Reference Books:
1. Neethi book, Manikkavasakar pathippakam, paarimunai, Chennai -08 2. Tamil paa thirattu - prasaranga pub. Bangalore university, Bangalore 3. Kappiya noolkal-manikkavasakar pathippakam, Chennai -08 4. Madagascar kalanchiyam - van a thing pathippakam
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Essential Reading / Recommended Reading 1. Thamil paa thirattu - prasaranga pub. Bangalore university, Bangalore 2. Mozhi varalaru - Dr. My. Varatharajan - kazhaka pub. Chennai- 01 3. Aranerichaaram-Munaipatiyaar 4. Kazhaka pub. Thirunelveli, thenninthiya saivachiththantha noorpathippu kazhaka, Ltd., Chennai 01 5. Thirumoor thirumandiram-Thiruvaavatuthurai aathinam, Thiruvaavatuthurai Nadagam, Education in karnataka Bangalore 01. 6. Madras university , etaikkala illakkiyam, Chennai -01 7. Thamizh pazhamozhikal, janaral pub. Mylappur, Chennai -04 8. Thamizhil puthirkal our aayivu-Aaru. Ramanadan, Manikkavasakar niilakam, Chennai -01
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Evaluation Pattern
EXAMINATION AND ASSIGNMENTS: There is a continuous evaluation both at the formal and informal levels. The language skills and the ability to evaluate a text will be assessed This paper will have a total of 50 marks shared equally by End Semester Exam (ESE) and Continuous Internal Assessment (CIA) While the ESE is based on theory the CIA will assess the students' critical thinking, leadership qualities, language skills and creativity
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ZOO431 - GENETICS AND EVOLUTIONARY BIOLOGY (2022 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:100 |
Credits:4 |
Course Objectives/Course Description |
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To teach students the fundamental concepts of evolution as well as a deeper understanding of the evolutionary processes, both selective and random, that can explain the genetic composition of populations, the form, behaviour, and distribution of organisms, and to teach students the fundamental methods of analysing evolutionary relationships between species. |
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Learning Outcome |
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CO1: Understand the fundamental terminology and concepts in the fields of genetics and evolution. CO2: Understand the basic scientific methods, including data analysis, used in these fields, and be able to carry out simple analyses using empirical population genetics and quantitative genetics data. CO3: Interpret results from studies in population and quantitative genetics. CO4: Generate evolutionary hypotheses for a wide range of biological phenomena, and apply
evolutionary principles in her or his own life. CO5: Understanding the role of genetic mechanisms in evolution. |
Unit-1 |
Teaching Hours:3 |
Introduction to genetics
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Mendel’s work on transmission of traits, Rediscovery of mendelian work, Genetic variation, Molecular basis of genetic information. | |
Unit-2 |
Teaching Hours:7 |
Mendelian inheritance
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Principles of inheritance, Chromosome theory of inheritance, Incomplete dominance and co-dominance, Multiple alleles, Lethal alleles, Epistasis and gene interactions, Pleiotropy, Sex linked inheritance, Extra- chromosomal inheritance. | |
Unit-3 |
Teaching Hours:7 |
Linkage, crossing over, and chromosomal mapping
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Linkage and crossing over, Recombination frequency as a measure of Linkage intensity, Two factor and three factor crosses, Interference and coincidence, Somatic cell genetics- an alternative approach to gene mapping. | |
Unit-4 |
Teaching Hours:6 |
Mutations
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Chromosomal mutations: Deletion, Duplication, Inversion, Translocation, Aneuploidy and Polyploidy, Gene mutations, Induced Vs Spontaneous mutations, Back vs Suppressor mutations. | |
Unit-5 |
Teaching Hours:3 |
Sex determination
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Chromosomal mechanisms, dosage compensation. | |
Unit-6 |
Teaching Hours:2 |
History of life
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Historical Overview, Chemogeny, Biogeny, RNA World, Major events in the history of life. | |
Unit-7 |
Teaching Hours:4 |
Introduction to evolutionary theories
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Lamarckism, Darwinism, Mutation theory and Neo-Darwinism. | |
Unit-8 |
Teaching Hours:5 |
Direct evidence of evolution
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Evidences of evolution; Types of fossils, incompleteness of fossil record, dating of fossils, phylogeny of horse, Molecular evidences (Globin gene families as an example), Molecular clock concept. | |
Unit-9 |
Teaching Hours:7 |
Processes of evolutionary changes
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Organic variations, isolating mechanisms, natural selection (Example- Industrial melanism), types of natural selection (Directional, Stabilizing, Disruptive), artificial selection. | |
Unit-10 |
Teaching Hours:4 |
Species concept
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Biological species concept (advantages and limitations), mode of speciation (allopatric, sympatric), Evolution of human | |
Unit-11 |
Teaching Hours:2 |
Macro-evolution
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Macro-evolutionary principles (example: Darwin’s Finches), Convergence, Divergence, Parallelism. | |
Unit-12 |
Teaching Hours:5 |
Extinction
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Background extinction, Mass extinction (causes, names of five major extinctions, K-T extinction in detail), role of extinction in evolution. | |
Text Books And Reference Books: 1. Gardner, E.J., Simmons, M.J., Snustad, D.P. (2008). Principles of Genetics. VIII Edition. Wiley India. 2. Snustad, D.P., Simmons, M.J. (2009). Principles of Genetics. V Edition. John Wiley and Sons Inc. | |
Essential Reading / Recommended Reading 1. Klug, W.S., Cummings, M.R., Spencer, C.A. (2012). Concepts of Genetics. X Edition. Benjamin Cummings 2. Russell, P. J. (2009). Genetics- A Molecular Approach. III Edition. Benjamin Cummings. 3. Griffiths, A.J.F., Wessler, S.R., Lewontin, R.C. and Carroll, S.B. Introduction to Genetic Analysis. IX Edition. W. H. Freeman and Co. 4. Ridley, M. (2004). Evolution. III Edition. Blackwell Publishing. 5. Barton, N. H., Briggs, D. E. G., Eisen, J. A., Goldstein, D. B. and Patel, N. H. (2007). Evolution. Cold Spring, Harbour Laboratory Press. 6. Hall, B. K. and Hallgrimsson, B. (2008). Evolution. IV Edition. Jones and Bartlett Publishers 7. Campbell, N. A. and Reece J. B. (2011). Biology. IX Edition, Pearson | |
Evaluation Pattern Internal Assessment: CIA 1(Quiz/ Tests/ MCQs/ Assignments) - 20 marks; CIA 2 (Midsemester Examination) 50 marks; CIA 3 (Quiz/ Tests/ MCQs/ Assignments - 20 marks) External Assessment: End Semester Examination - 100 marks Both the assessments will be scaled down to 50 | |
ZOO451 - GENETICS AND EVOLUTIONARY BIOLOGY LAB (2022 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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To teach students the fundamental concepts of evolution as well as a deeper understanding of the evolutionary processes, both selective and random, that can explain the genetic composition of populations, the form, behaviour, and distribution of organisms, and to teach students the fundamental methods of analysing evolutionary relationships between species. |
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Learning Outcome |
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CO1: Understand the various process of evolution. CO2: Understand the central concepts in population and quantitative genetics. CO3: Learn the various methods of fossil dating and generate evolutionary hypotheses for a wide range of biological phenomena, and apply evolutionary principles in her or his own life. |
Unit-1 |
Teaching Hours:16 |
Genetics Lab
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1. Study of Mendelian inheritance and gene interactions (Non-Mendelian inheritance) using suitable example. Verify the results using Chi-Square test 2. Study of linkage, recombination, gene mapping using the data. 3. Study of human karyotype (normal and abnormal). 4. Phenotypic characters of Drosophila - wild and mutant variety 5. Problems based on gene frequency-Hardy Weinberg Law | |
Unit-2 |
Teaching Hours:14 |
Evolutionary Biology Lab
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1. Study of fossil evidences from plaster cast models and pictures. 2. Study of homology and analogy from suitable specimens, pictures. 3. Charts: A) Phylogeny of horse with diagrams or cut outs of limbs and teeth of horse ancestors; B) Darwin’s Finches with diagram or cut outs of beaks of different species 4. Study of Connecting links: Peripatus and Tornaria larva and archeopterix (pictures) 5. Visit to natural history museum and submission of report | |
Text Books And Reference Books: 1. Gardner, E.J., Simmons, M.J., Snustad, D.P. (2008). Principles of Genetics. VIII Edition. Wiley India. 2. Snustad, D.P., Simmons, M.J. (2009). Principles of Genetics. V Edition. John Wiley and Sons Inc. | |
Essential Reading / Recommended Reading 1. Klug, W.S., Cummings, M.R., Spencer, C.A. (2012). Concepts of Genetics. X Edition. Benjamin Cummings. 2. Russell, P. J. (2009). Genetics- A Molecular Approach. III Edition. Benjamin Cummings. 3. Griffiths, A.J.F., Wessler, S.R., Lewontin, R.C. and Carroll, S.B. Introduction to Genetic Analysis. IX Edition. W. H. Freeman and Co. 4. Ridley, M. (2004). Evolution. III Edition. Blackwell Publishing 5. Barton, N. H., Briggs, D. E. G., Eisen, J. A., Goldstein, D. B. and Patel, N. H. (2007). Evolution. Cold Spring, Harbour Laboratory Press. 6. Hall, B. K. and Hallgrimsson, B. (2008). Evolution. IV Edition. Jones and Bartlett Publishers 7. Campbell, N. A. and Reece J. B. (2011). Biology. IX Edition, Pearson | |
Evaluation Pattern Internal Assessment: Performance - 20 marks; Midsemester Examination) 20 marks; record - 10 marks) External Assessment: End Semester Examination - 50 marks Both the assessments will be scaled down to 25 | |
BTY541A - IMMUNOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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This paper will examine cellular and molecular aspects of the immune system. Topics include immunogenetics and molecular structure of immunoglobulins, T cell & B cell development, MHC antigens, modern vaccines, functions and dysfunctions of the components of the immune system; applications of immunological technologies in modern scientific research and development. |
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Learning Outcome |
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Unit-1 |
Teaching Hours:7 |
Introduction to Immunology
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History of Immunology, Innate Immune Immunity and its role in protection, cellular and humoral Immunity physiological barriers, mechanical barriers, chemical barriers. Adaptive Immunity – naturally and artificially acquired immunity. | |
Unit-2 |
Teaching Hours:6 |
Cells and Organs of Immune System
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Humoral and cellular component of the Immune system, Role of different blood cells in immune system(B cell, T cell, NK, Macrophage, neutrophils, Basophils and eosinophils), primary lymphoid organs- thymus, nude mice, bone marrow, secondary lymphoid organs- spleen, lymph node, MALT. | |
Unit-3 |
Teaching Hours:7 |
Antigens and Antibodies
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Antigenicity and Immunogenicity, epitopes of B Cells and T Cells, Haptens, antigenic drift and shift, Elucidation of antibody structure, variable regions, constant regions, Heavy chains light regions, classification and functions of antibodies (IgA, IgG, IgM, IgD, I,gE). Functions of different antibodies, generation of antibody diversity, Monoclonal antibodies-hybridoma technology. | |
Unit-4 |
Teaching Hours:7 |
Antigen-Antibody Interaction
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Affinity and avidity, Factors influencing antigen-antibody reactions, precipitation reactions- radial immunodiffusion, double immunodiffusion, Agglutination- heamagglutination, agglutination inhibition, rocket electrophoresis, radioimmunoassay, ELISA- indirect, sandwich, competitive ELISA , immunofluorescent techniques. | |
Unit-5 |
Teaching Hours:6 |
Antigen Processing and Presentation
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MHC molecules and organization of their genes, Structure and function of MHC types. Antigen processing, role of MHC in antigen presentation | |
Unit-6 |
Teaching Hours:4 |
Complement System
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History and Definition of complement proteins, functions of complement system, Classical pathway, Alternate pathway, Mannan binding lectin pathway. | |
Unit-7 |
Teaching Hours:3 |
Hypersensitivity
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Definition of hypersensitivity reactions, Coomb’s classification of HS reactions- Immediate reactions-Type I, II, III. Delayed HS reactions-type IV, Immunity in Graft rejects | |
Unit-8 |
Teaching Hours:5 |
Vaccines and Immunization
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Passive and Active immunization. Types of Vaccines-Live, attenuated vaccines, Inactivated vaccines, Subunit vaccines, Toxoid vaccines, Conjugate vaccines, DNA vaccines, Recombinant vector vaccines. | |
Text Books And Reference Books:
1) I. Roitt, Essential Immunology, 10th ed. USA: Blackwell Company Ltd, 2001. 2) H. F. Khan, The elements of Immunology, India: Pearson Education, 2009. | |
Essential Reading / Recommended Reading 1) T. J. Kindt, B. A. Osborne and R. A. Goldsby, Kuby Immunology, 6th ed. USA: W.H. Freeman & Company, 2007. 2) W. Luttman, Immunology, 2nd ed. USA: Academic press, 2006. 3) D. Male, Immunology, 7th ed. USA: Mosby Elsevier, 2006. W. E. Paul, Fundamental Immunology, 7th ed. USA: Lippincott’s William & Wilkins, 2012. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIAI – Assignments/test/presentation/etc – 10% CIAII – Midsemester exam – 25% CIAIII - Assignments/test/presentation/etc – 10% Attendance – 5% End Semester Theory Exam – 50% | |
BTY541B - PLANT BIOTECHNOLOGY AND BIOINFORMATICS (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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The paper explains the concepts of animal cell and plant tissue culturing. The course objective is to “learn by doing”. The plant biotechnology chapters will examine the scientific and technical advances which underlie the production of genetically modified crops. |
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Learning Outcome |
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Unit-1 |
Teaching Hours:4 |
Introduction and in vitro Culture Conditions
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Totipotency of Plant cells, history of plant tissue culture. Nutrient media components- major and minor nutrients and their role in plant growth and deficiency symptoms organic nutrients, vitamins and plant growth regulators (Auxin, cytokinins and gibberellins), Aseptic techniques- sterilization & disinfection, Z value , D value , Thermal death point, Sterilization of media, explant preparation, surface sterilizing agents. | |
Unit-2 |
Teaching Hours:8 |
In vitro Culture Techniques
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In vitro fertilization, haploid culture- Culture of Ovary and ovule, Factors affecting in vitro pollination, applications of in vitro fertilization. Organ culture, Anther culture- technique of androgenesis, factors influencing anther culture, haploids from isolated microspore, application of haploids in plant breeding. Embryo Culture- nutritional requirements, applications. Endosperm culture -triploid production- source material, nutrient media, uses. Organogenesis and somatic embryogenesis, applications in plant improvement. Protoplast culture - isolation of protoplast- mechanical and enzymatic methods, viability of protoplast, culture of protoplasts, regeneration, screening, protoplast fusion- PEG mediated and electrofusion, applications and examples of somatic hybrids and cybrids. | |
Unit-3 |
Teaching Hours:7 |
Suspension Culture and Secondary Metabolite Production
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Isolation of single cell from organs (mechanical method, enzymatic method), subculturing of suspension cultures, types of suspension culture, culture medium for cell suspensions, synchronisation of Suspension Cultures, growth and viability of cultured cells (reduction of Tetrazolium salts, Fluoresence Diacetate method, Evan’s Blue Method). Single cell propagation techniques - Filter paper raft nurse technique, Bergmann technique, Microchamber technique. Secondary metabolites- Introduction, types with examples, Mass Production of Plant secondary metabolites using suspension culture and immobilized plant cells, strategies to improve production, production of shikonin and capsaicin and their uses. | |
Unit-4 |
Teaching Hours:5 |
Applications of Plant Tissue Culture
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Clonal Propagation of elite species- orchids, anthurium etc, advantages and limitations. Obtaining virus free plants by meristem tip culture, other methods of virus elimination- thermotherapy, cryotherapy and chemotherapy, Virus indexing- Sap Transmission Test, Serology, Artificial seeds – preparation techniques, applications. Somaclonal variation – molecular basis, selection of somaclonal variants, application in plant breeding in getting improved varieties. | |
Unit-5 |
Teaching Hours:7 |
Genetic Engineering in Plants
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Gene construction, vectors for transgenic plants-Plasmid vectors, Plant virus vectors, Transformation Techniques- Agrobacterium mediated gene transfer – Ti plasmid and Ri plasmid, T-DNA structure, genes, Opines- types and function, vir genes, role in T-DNA transfer, Cointegrate and Binary vector strategy, Coculture and in planta transformation, Direct method – gene gun, Integration of transgene, Selectable markers, reporter genes - gus, lux gfp, promoters – inducible and tissue specific, Gene silencing – types and significance. | |
Unit-6 |
Teaching Hours:4 |
Transgenic Crops
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Herbicide tolerance- Glyphosate resistant plants, Insect resistance- Bt brinjal production - cry genes and mechanism of action, and Disease resistance- bacterial and viral resistance, Improved nutrient quality (golden rice, high iron rice). | |
Unit-7 |
Teaching Hours:3 |
Antisense Technology
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Antisense gene approach, Co-suppression of genes- definition and mechanism (threshold model, production and degradation of antisense RNAs), Terminator gene technology, V-GURT and T-GURT, Plant derived Vaccines, Edible vaccines, Recombinant and subunit vaccines, Status of Plant derived Vaccines, Safety of GMOs. | |
Unit-8 |
Teaching Hours:7 |
Bioinformatics
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Introduction and scope, genome sequencing projects - microbial sequencing projects, Human Genome Project, Definition of database, nucleotide sequence database [EMBL, NCBI and DDBJ], protein structure database [PDB, CATH, DALI, Protopedia, OPM]. Homology search of DNA and proteins, sequence alignment: pair wise and multiple alignments [Definition and applications of BLAST and FASTA and Clustal W. | |
Text Books And Reference Books: 1) M. K. Razdan, Introduction to Plant Tissue Culture, 2nd ed, New Delhi: Oxford & IBH Publishing Co. Pvt Ltd., 2010. 2) B. D. Singh, Plant Biotechnology and Industrial Biotechnology, New Delhi: Kalyani Publishers, 2005. 3) T. Attwood and P. Smith. Introduction to Bioinformatics, USA: Pearson Education, 2007. | |
Essential Reading / Recommended Reading 1) S. B. Primrose and R. Twyman R. Principles of Gene Manipulation and Genomics. USA: John Wiley and Sons, 2013. 2) U. Satyanarayana, Biotechnology, Kolkota: Books and Allied (P) Ltd., 2005. 3) S. S. Purohit, Plant Tissue Culture. Jodhpur: Agrobios, 2008. 4) W. Taylor and D. Higgins. Bioinformatics: Sequence, Structure and Databanks: A Practical Approach, Oxford, 2000. 5) S. Mahesh. Plant Molecular Biotechnology, New Delhi: New Age Science, 2009. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIAI – Assignments/test/presentation/etc – 10% CIAII – Midsemester exam – 25% CIAIII - Assignments/test/presentation/etc – 10% Attendance – 5% End Semester Theory Exam – 50% | |
BTY542A - BIOPROCESS ENGINEERING (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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This paper provides technical information on fermenter designing and kinetics involved in the fermentation processes. |
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Learning Outcome |
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Unit-1 |
Teaching Hours:3 |
Introduction to Bioprocess Engineering
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Definition of a Bioprocess, overview of bioprocesses with their various components. Bioprocess operation & their global impact. | |
Unit-2 |
Teaching Hours:6 |
Types of Fermentation
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Fermentation process- inoculum build up, pre-fermentation, product fermentation. Solid state fermentation, Solid substrate, submerged, Aerobic, Anaerobic, batch, fed-batch, semi-continuous, continuous, Fermentation based on type of product formation- type I, II, III. | |
Unit-3 |
Teaching Hours:7 |
Bioreactor
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Types of Bioreactors- conventional- stirred tank reactors, airlift, bubble up fluidized bed, packed bed, tower reactors, drum reactors, photobioreactors; Components of the fermenters, types of impellers, aeration, temperature regulation, pH monitoring, antifoaming agents. | |
Unit-4 |
Teaching Hours:4 |
Media for Industrial Fermentation
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Types of media, synthetic and crude media, Enrichment media, Selective media, Media formulation, Constituents of media, Principles of Media Sterilization, Batch & Continuous sterilization techniques, Air sterilization. | |
Unit-5 |
Teaching Hours:4 |
Culture Management
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Isolation of microbes, culture collection, Need for strain development, Methods of strain development (mutation, selection of mutants, selective isolation of mutants- genetic recombination), preservation of microbes. | |
Unit-6 |
Teaching Hours:5 |
Down Stream Processing
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Solid-liquid separation (Flocculation, Filtration, Centrifugation), Cell disruption (Physical, chemical and enzymatic), Extraction, Precipitation, Distillation, Evaporation, Chromatographic separation, Adsorption, Concentration, formulation- Lyophilisation, spray drying. | |
Unit-7 |
Teaching Hours:7 |
Enzyme Technology
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Introduction, Enzymes Vs catalysts, Enzymes Vs Whole cells, General steps in production of enzymes, Mechanism of enzyme action, Enzyme kinetics-Km, Vmax, Immobilization of enzymes, Methods of Immobilization, Advantages of Immobilization, industrial applications of enzymes (leather, textile, baking, detergent industries),Biosensors, Types of Biosensors (Amperometric, Potentiometric, Conductimetric, Optical Biosensors), Immobilized enzymes in drug delivery. | |
Unit-8 |
Teaching Hours:9 |
Microbial Products and Quality Analysis
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Classification of metabolic products- Primary, secondary and bioconversion products (Steroids). Production of alcoholic beverage (Beer), Food (Cheese) amino acid (glutamic acid,) Organic acids (Lactic acid), antibiotic (penicillin) single cell protein, single cell oil. Quality Control, Quality assurance, Standard Operating Procedures (SOP) & Good Manufacturing Practices (GMP). | |
Text Books And Reference Books: 1) U. Sathyanarayana. Biotechnology. Books and Allied (P) Ltd, Kolkota: 2008. 2) S.N. Jogdand. Environmental Biotechnology. 3rd ed, India: Himalaya Publication House, 2001. 3) B.D. Singh. Biotechnology. 2nd ed, New Delhi: Kalyani Publishers, 2007. | |
Essential Reading / Recommended Reading 1) P. F. Stanbury. A. Whitaker and S.J. Hall. Principles of Fermentation Technology. 2nd ed, Edinburgh: Butterworth Heinemann Press, 2003 2) M. D. Pauline. Bioprocess Engineering Principles. 2nd ed, London: Academic Press, 2000. 3) Zhong, Jian-Jiang. Biomanufacturing. New York: Springer-Verlag Heidelberg, 2004. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIAI – Assignments/test/presentation/etc – 10% CIAII – Midsemester exam – 25% CIAIII - Assignments/test/presentation/etc – 10% Attendance – 5% End Semester Theory Exam – 50% | |
BTY542B - FOOD SCIENCE (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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The paper imparts knowledge of understanding food composition and its physicochemical, nutritional, microbiological and sensory aspects. |
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Learning Outcome |
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Unit-1 |
Teaching Hours:6 |
Introduction and Food constituents.
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Food as a source of energy, Energy requirement in human body, Dietary requirements for different age group, sources, Food health and disease. Carbohydrates: Classification (mono, oligo and polysaccharides), Structure of important polysaccharides (starch, glycogen, cellulose, pectin, hemicellulose, gums) Chemical reactions of carbohydrates –oxidation, reduction, with acid & alkaki, Browning reactions: Enzymatic browning, Non – Enzymatic browning, Maillard reaction, Caramelization reaction, Ascorbic acid oxidation. Fats: Classification of lipids, Physical properties-melting point, softening point, specific gravity, refractive index, smoke, flash and fire point, turbidity point, Chemical properties-reichert meissl value/Polenske value, iodine value, peroxide value, saponification value. Effect of frying on fats Changes in fats and oils- rancidity, lipolysis, flavor reversion, Auto-oxidation and its prevention Biological role and uses of lipids, Dietary sources, Fatty acids in foods and their health implications. Proteins: Protein classification and structure, Nature of food proteins (plant and animal proteins), Properties of proteins (electrophoresis, sedimentation, amphoterism and denaturation) Functional properties of proteins eg. organoleptic, solubility, viscosity ,binding, gelation / texturization , emulsification , foaming. Classification, structure and functions, Role of proteins and requirements, Protein sources. Balanced Diet: Energy and nutrient requirements, Public health and policies, Calculation of daily requirements (energy, protein, fat, carbohydrates), Food pyramid, Analysis of diets. | |
Unit-2 |
Teaching Hours:6 |
Compositional, Nutritional and Technological aspects of foods
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Cereals and Millets: Structure and composition of cereals, Wheat- structure and composition, types (hard, soft/ strong, weak) Diagrammatic representation of longitudinal structure of wheat grain, Malting, gelatinization of starch. Rice- structure and composition, parboiling of rice -Gelatination. Retrogradation, factors Influencing advantages and disadvantages. Ragi Flesh Foods - Meat, Fish, and Poultry: Meat - Definition of carcass, concept of red meat and white meat, composition of meat, artificial meat omega-3-chicken, marbling, post-mortem changes in meat- Algor, livor, rigor mortis, tenderization of meat, and ageing of meat. Fish - Classification of fish (fresh water and marine), aquaculture , composition of fish, characteristics of fresh fish, spoilage of fish- microbiological, physiological, biochemical. Poultry - Structure of hen’s egg, composition and nutritive value, egg proteins, Characteristics of fresh egg, deterioration of egg quality | |
Unit-3 |
Teaching Hours:5 |
Microbial growth in foods
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Physical factors: pH, temperature, oxygen concentration, moisture, hydrostatic pressure, osmotic pressure, and radiation, Biochemical and nutritional factors: availability of carbon, nitrogen, sulphur, phosphorus, trace elements | |
Unit-4 |
Teaching Hours:4 |
Beneficial microbes
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Lactic acid bacteria in milk, acetic bacteria on fruits and vegetables), Application of beneficial microorganisms in food production (examples: cheese, yogurt, pickles, beer, vinegar). | |
Unit-5 |
Teaching Hours:4 |
Food spoilers
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Definition, Factors influencing food spoilage (Extrinsic and Intrinsic Factors) Focus on moulds (examples: Aspergillus, Fusarium, Penicillium), Focus on bacteria (examples: Clostridium perfingens, Pseudomonas fluorescens, Brochotrix thermosphacta), Spoilers in food like meat, poultry, sea foods, vegetables, dairy products, fruits, cereal and bakery products, eggs. | |
Unit-6 |
Teaching Hours:6 |
Food borne illness
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Food borne diseases: infection and intoxication, Common sources for food borne illness-unpasteurised milk, raw and undercooked meat, improperly canned foods. Examples of pathogenic micro-organisms: Incubation period, Symptoms, risk factors, Complications, diagnosis and treatment. Virus: Norovirus and hepatitis A, Parasites: Giardia lamblia Bacteria: Campylobacter, Vibrio, Listeria monocytogenes Fungi: Aspergilus | |
Unit-7 |
Teaching Hours:4 |
Food Preservation and Food adulterants
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Drying, freezing, canning, pasteurization, salting, sugaring, smoking, vaccum packing, artificial food additives, irradiation, modified atmosphere packing, Biopreservation. Types of adulteration, Intentional Adulteration, Incidental Adulteration, Adulterants in food (Milk, spices, cooking oil) | |
Unit-8 |
Teaching Hours:4 |
Food Processing and Management
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Heating, blanching, pasteurization and sterilization: heat exchangers, flash pasteurization, thermal destruction, F values calculation, Cooling, Micro-wave processing, Drying, Cooking, Blending, Packing, canning, Mixing and forming freezing, deep-freezing: changes in food, refrigerant fluids, freezing equipment, Concentration, Evaporation, dehydration: purpose, effects on foods, boiling point, heat and mass balance, water balance, rehydration equipment, types of evaporators, Concentration by freezing (lyophilisation),Dehydration by immersion (e.g. in a salty water) | |
Unit-9 |
Teaching Hours:4 |
Nutraceuticals
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Types of nutraceutical compounds – Phytochemicals, phytosterols and other bioactive compounds, peptides and proteins, carbohydrates (dietary fibers, oligosaccharides and resistant starch), prebiotics, probiotics and synbiotics, lipids (Conjugated Linoleic Acid, omega-3 fatty acids, fat replacers), vitamins and minerals; their sources and role in promoting human health, Cardiovascular diseases) | |
Unit-10 |
Teaching Hours:2 |
Food safety and standards
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Basic concept, Prerequisites- Good Manufacturing Practices, Good Handling Practices in food Industries, FSSAi Hazard Analysis and Critical Control Point (HACCP) ISO 22000 in Food Safety. | |
Text Books And Reference Books: 1. J..M. Jay, D.A.Loessner, J. Martin, Essentials of Food Microbiology, London: Arnold, 2005 2. Frazier, W.C, Food Microbiology, Mc Graw Hill Inc. 4th Edition, 2007 3. P.J. Fellows, Food processing technology, 4th ed. Woodhead publishing,2017 | |
Essential Reading / Recommended Reading 1. N. Krieg, E.C.S. Chan, M.J.Pelczar, Modern Food Microbiology, 7th ed. Springer, 2004 2. D.A. Klein, J.P. Harley, L.M. Prescott, Microbiology, 6th ed. Brown publishers, 2008 | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIAI – Assignments/test/presentation/etc – 10% CIAII – Midsemester exam – 25% CIAIII - Assignments/test/presentation/etc – 10% Attendance – 5% End Semester Theory Exam – 50% | |
BTY551A - IMMUNOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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The paper introduces the students to analyze and quantify antigen and antibodies by using different immunotechniques such as agglutination test, Ouchterlony Double diffusion method, Radial immunodiffusion, ELISA and Rocket electrophoresis. |
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Learning Outcome |
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Unit-1 |
Teaching Hours:60 |
Name of the experiment
|
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1) Determination of Blood group 2) Total count of RBC & WBC using Haemocytometer 3) Differential Count of WBC 4) Widal test 5) VDRL Test 6) Dot ELISA 7) Ouchterlony Double Diffusion 8) Radial Immunodiffusion 9) Immunoblotting technique 10) Separation of serum from blood & precipitation of Immunoglobulin 11) Estimation of the Immunoglobulin by Bradford protein assay | |
Text Books And Reference Books: 1) F. C. Hay, M. R. Olwyn, P. N. Westwood and N. L. Hudson, Practical Immunology, 4th ed. UK: Blackwell Company Ltd, 2002. | |
Essential Reading / Recommended Reading 1) G. P. Talwar, Hand Book of Practical and Clinical Immunology, 2nd ed. Vol. II, New Delhi: CBS Publishers and Distributors, 2009. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
BTY551B - PLANT BIOTECHNOLOGY AND BIOINFORMATICS LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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This paper trains the students in various aspects of tissue culture- selection of explants, media preparation, sterilization, inoculation, sub culturing and acclimatization. |
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Learning Outcome |
|
Unit-1 |
Teaching Hours:60 |
Name of the experiment
|
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1) Plant tissue culture lab designing, sterilization techniques 2) Preparation of medium-Murashige and Skoog medium, Gamborg’s medium Nitsch’s medium 3) Production and maintenance of Callus culture 4) Multiple shoot initiation 5) Production ofvirus free plants 6) Production of haploids 7) Protoplast isolation by enzymatic method 8) Preparation of Artificial seeds 9) Establishment of Callus suspension culture & monitoring the growth by dry weight method 10) DNA and protein homology by BLAST 11) Protein structure studies by RASMOL | |
Text Books And Reference Books: 1) C. C. Giri. Plant Biotechnology - Practical Manual, Bengaluru: I.K. International Pvt. Ltd, 2007. | |
Essential Reading / Recommended Reading 1) S. Rajan S and R. Christy, Experimental Procedures in Life Sciences, Chennai: Anjanaa Book House, 2010. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
BTY552A - BIOPROCESS ENGINEERING LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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This paper deals with the basics and applied aspects of the fermentation process along with various quantitative methods for detection of fermentation products. |
|
Learning Outcome |
|
Unit-1 |
Teaching Hours:60 |
Name of the experiment
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1) Determination of microbial growth by turbidimetric method 2) Production of primary and secondary metabolite (organic acid) 3) Estimation of the fermentation products by titration method 4) Solid state Fermentation 5) Production of beverage 6) Immobilization of microbial cells and assay for its activity 7) Isolation and assay for specific activity amylase from Aspergillus niger 8) Qualitative test for milk –(Dye reduction test & Estimation of Lactic acid) 9) Production of Protease enzyme from microbes 10) Visit to research institute or industry
| |
Text Books And Reference Books: 1) Rajan S and Christy R S. Experimental Procedures in Life Sciences, India: Anjanaa Book House, Chennai, 2010. | |
Essential Reading / Recommended Reading 1) S. Sadasivam and A. Manickam. Biochemical Methods. 3rd ed. India: New age International Publisher, 2008. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
BTY552B - FOOD SCIENCE LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
|
The paper imparts knowledge on the basic practises and tests followed in the food science laboratory. |
|
Learning Outcome |
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CO1: Describe various methods of industrial processing and preservation techniques of foods. CO2: Demonstrate the role of microorganisms in food industries both in beneficial and harmful ways. CO3: Identify the need for food safety, food quality, food plant sanitation, food laws and regulations. CO4: Inspect the presence of adulterants in food. CO5: Predict the nutritive value of food. |
Unit-1 |
Teaching Hours:60 |
Name of the experiment
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1. Isolation of casein from milk and to estimate the yield 2. Isolation of pectin from different fruits and estimate the yield 3. Estimation of gluten content in flour. 4. Estimation of saponification value and iodine value. 5. Estimation of reducing and non-reducing sugar in food. 6. Determination of smoke point and percentage of fat absorption for different fat and oils. 7. Isolation as estimation of carotenoids in vegetables. 8. Determination of lycopene in fruit/vegetable 9. Estimation of crude fibre/dietary fibre content in cereals and their products 10. Estimation of anthocyanins in food sample 11. Isolation of capsaicin from vegetable source. 12. Production of Baker’s yeast and check its activity 13. Preparation of tofu (fermented product). 14. Preparation of wine. 15. Quality test for milk by MBRT/titration. 16. Estimation of polyphenols 17. Test for the detection of adulterants in food. 18. Industrial Visit. | |
Text Books And Reference Books: 1) K.L. Garg, K.L. Mukerji, N. Garg, Laboratory Manual for food Microbiology, I.K. International Publishing House Pvt. Ltd, New Delhi 2010 | |
Essential Reading / Recommended Reading 1) L. A Mclandsborough, Food Microbiology Laboratory, CRC Press,2005 | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
CHE531 - CHEMISTRY V-PHYSICAL CHEMISTRY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:03 |
Course Objectives/Course Description |
|
Course Description: This course includes important physical topics that describe the influence of electricity and electromagnetic radiation on matter. Ionic equilibria and Electrochemistry relate to the formation of ions and their ability to migrate under the influence of electricity. Spectroscopy and Photochemistry are the topics that discuss the interaction of radiation with matter and are the foundation for many analytical techniques today.
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Learning Outcome |
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CO1: Explain the concepts of ionic equilibria, electrochemistry, spectroscopy, and photochemistry CO2: Interpret the spectroscopic responses of organic and inorganic molecules. CO3: Solve problems based on ionic equilibria, electrochemistry, and photochemistry. CO4: Discuss the kinetics of photochemical reactions. |
Unit-1 |
Teaching Hours:5 |
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1. Ionic Equilibria
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Strong, moderate and weak electrolytes, degree of ionization, factors affecting degree of ionization, ionization constant and ionic product of water. Ionization of weak acids and bases, pH scale, common ion effect. Salt hydrolysis-calculation of hydrolysis constant, degree of hydrolysis and pH for different salts. Buffer solutions, mechanism of buffer action and preparation of buffers. Henderson equation and calculation of pH of a buffer. Solubility and solubility product of sparingly soluble salts – applications of solubility product principle. Ionic product, common ion effect and solubility product in qualitative analysis.Conditions for precipitation. | ||||||||||||||||||||||||||||||||||||
Unit-2 |
Teaching Hours:8 |
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2. Electrochemistry I
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Prelearning topics: Conductivity, equivalent and molar conductivity and their variation with dilution for weak and strong electrolytes. Kohlrausch law of independent migration of ions. Transference number and its experimental determination using Moving boundary methods. Ionic mobility. Applications of conductance measurements: determination of degree of ionization of weak electrolyte, solubility and solubility products of sparingly soluble salts, ionic product of water, hydrolysis constant of a salt using conductivity studies. Conductometric titrations* (only acid-base-four types).Numericals based on above topics. | ||||||||||||||||||||||||||||||||||||
Unit-3 |
Teaching Hours:8 |
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3. Electrochemistry II
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Prelearning topics: Electrode potential, Standard electrode potential, electrochemical series, types of electrodes. Reversible and irreversible cells. Concept of EMF of a cell. Measurement of EMF of a cell. Nernst equation and its importance. Thermodynamics of a reversible cell, calculation of thermodynamic properties: ΔG, ΔH and ΔS from EMF data. Calculation of equilibrium constant from EMF data. Concentration cells with transference and without transference. Liquid junction potential and salt bridge. pH determination using hydrogen electrode, quinhydrone electrode and glass electrode. Potentiometric titrations-qualitative treatment (acid-base and oxidation-reduction only). | ||||||||||||||||||||||||||||||||||||
Unit-4 |
Teaching Hours:18 |
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4. Molecular Spectroscopy
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Pre learning: Electromagnetic spectrum, Wave nature of electromagnetic radiation. Wavelength, Frequency, wavenumber, relation between them. Origin of molecular spectra : Study of rotation, vibration spectra of diatomic molecules. Born-Oppenheimer approximation. Degrees of freedom. Rotational spectroscopy : Expression for rotational energy. Evaluation of internuclear distance from moment of inertia- problems. Criterion for absorption of radiation - selection rule. Application of microwave spectroscopy. Vibrational Spectroscopy : Expression for potential energy of simple harmonic oscillator–Hooke’s law. Expression for vibrational energy. Zero point energy. Concept of force constant-its evaluation-problems. Degrees of freedom-modes of vibration for CO2 and H2O molecules. Vibration - rotation spectra PQR bands. Raman Spectroscopy : Concept of Polarisability. Raman spectra-qualitative study. Stokes and anti-Stokes lines-selection rules. Advantages of Raman spectroscopy over IR spectroscopy. Electronic spectroscopy: Potential energy curves for bonding and antibonding orbitals. Electronic transitions, qualitative description of σ, Π and non-bonding orbitals and transitions between them. Selection rules and Franck-Condon principle. Magnetic resonance spectroscopy: NMR spectroscopy (Only principles to be discussed). ESR spectroscopy, NQR spectroscopy and Mossbaur spectroscopy. (Mention only) | ||||||||||||||||||||||||||||||||||||
Unit-5 |
Teaching Hours:6 |
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5. Photochemistry
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Consequences of light absorption: The Jablonski Diagram, Laws of photochemistry: Grotthuss-Draper law, Stark-Einstein law, Differences between photophysical and photochemical processes with examples. Comparison of photochemical and thermal reactions. Kinetics of photochemical reactions: (1) Kinetics of Hydrogen-Chlorine reaction (2) Kinetics of Hydrogen-Bromine reaction (4) Kinetics of dimerisation of anthracene. Photosensitization, photostationary equilibrium. Singlet and triplet states-Fluorescence, Phosphorescence, Luminescence, Bioluminescence, chemical sensors.Beer-Lambert’s law: Absorption coefficient and molar extinction coefficient. Applications.Laser, classification and uses. Numericals based on relevant topics | ||||||||||||||||||||||||||||||||||||
Text Books And Reference Books:
B R Puri, L R Sharma and M.S. Patania., Principles of Physical Chemistry. Vishal Publishing Company, Jalandhar. 2011. | ||||||||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading 1. Barrow, G.M. Physical Chemistry Tata McGraw‐Hill (2007). 2. Castellan, G.W. Physical Chemistry 4th Ed. Narosa (2004). 3. P. W Atkins, Physical chemistry, 8th ed., Oxford University Press, 2006. 4. G. M. Barrow Physical chemistry, 5th ed., Tata-Mc Graw Hill, 2006. 5. Glasstone Samuel,Textbook of Physical Chemistry. 2nd ed. Mcmillan, 2007. 6. F Daniels and F.A Alberty. Physical Chemistry. 4th ed. Wiley, 1996. 7. C. N. Banwell and E.M. Mccash, Fundamentals of Molecular Spectroscopy, TMH Edition, 2012. 8. B R Puri, L R Sharma and M.S. Patania., Principles of Physical Chemistry. Vishal Publishing Company, Jalandhar. 2011. | ||||||||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE541A - CHEMISTRY VA-ORGANIC CHEMISTRY (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:03 |
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Course Objectives/Course Description |
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Course Description: This course deals with various topics of determining reaction mechanisms, spectroscopy, the chemistry of soaps, detergents and dyes. This course on stereochemistry intends to make the students understand different concepts of conformational analysis and optical isomerism. |
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Learning Outcome |
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CO1: CO1-Illustrate the stereochemistry of organic molecules, the chemistry of soaps, detergents and dyes.
CO2: CO2-Explain the concepts related to research methodologies and research publications.
CO3: CO3-Analyse the organic compounds using spectroscopic techniques.
CO4: CO4- Interpret the reaction mechanisms. |
Unit-1 |
Teaching Hours:11 |
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1. Stereochemistry
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Conformational analysis with respect to ethane, propane, butane, and cyclohexane. Interconversion of Wedge Formula, Newman, Sawhorse and Fischer representations. Difference between configuration and conformation. Concept of isomerism, *types of isomerism, optical isomerism, elements of symmetry, molecular chirality, enantiomers, stereogenic centers, optical activity, properties of enantiomers, chiral and achiral molecules with two stereogenic centers, distereoisomers, mesocompounds, resolution of enantiomers, racemization. Optical activity in compounds not containing asymmetric Carbon- biphenyls, allenes.
Relative and absolute configurations, sequence rules, D & L, R & S systems of assigning configuration. Geometrical isomerism; Nomenclature by E and Z system. | ||||||||||||||||||||||||||||||||||||
Unit-2 |
Teaching Hours:11 |
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2. Structure Elucidation of organic molecules Using Spectral Data
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Application of spectral techniques in the structural elucidation of organic compounds. UV-Vis: λmax calculation for dienes and α,β unsaturated carbonyl compounds - UV spectra of butadiene, acetone, methyl vinyl ketone and benzene. IR: Concept of group frequencies - IR spectra of alcohols, phenols, amines, ethers, aldehydes, ketones, carboxylic acids, esters and amides. 1H NMR: Nuclear magnetic resonance.chemical shift (δ values), uses of TMS as reference. Nuclear shielding and deshielding effects.Equivalent and non-equivalent protons.Effect of electronegativity of adjacent atoms on chemical shift values.Spin-spin splitting and spin-spin coupling (qualitative treatment only). Applications of NMR spectroscopy including identification of simple organic molecules. Examples: Shielding and deshielding effects for (i) methane (ii) CH3−Cl (iii) CH2Cl2 (iv) CHCl3. Spin-spin coupling in (i) Cl2CHCHO (ii) 1,1,2-trichloroethane (iii) CH3CH2Cl. Mass Spectrometry: Introduction. EI ionisation. Determination of molecular mass by MS (elementary idea only – fragmentation study not required). | ||||||||||||||||||||||||||||||||||||
Unit-3 |
Teaching Hours:7 |
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3. Methods of Proposing Reaction Mechanism
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Guidelines for proposing a reasonable mechanism, product studies, bonds broken and formed, inter and intramolecular migration of groups, crossover experiments, exchange with solvents, importance of byproducts, reactive intermediates, energetics, importance of activation parameters. Isotopic substitution in a molecule, primary and secondary kinetic isotope effects - their importance in mechanistic studies. | ||||||||||||||||||||||||||||||||||||
Unit-4 |
Teaching Hours:6 |
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4.Dyes
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Theories of colour and chemical constitution. Classification of dyes – according to chemical constitution and method of application. Natural and synthetic dyes. Synthesis and applications of: Azo dyes – Methyl orange; Triphenyl methane dyes - Malachite green and Rosaniline; Edible dyes (Food colours) with examples. | ||||||||||||||||||||||||||||||||||||
Unit-5 |
Teaching Hours:5 |
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5.Soaps and Detergents
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Soaps – Introduction. Types of soaps - Toilet soaps, washing soaps. Liquid soap. TFM and grades of soaps. Bathing bars. Cleansing action of soap. Detergents - Introduction. Types of detergents - anionic, cationic, non-ionic and amphoteric detergents. Common detergent additives. Enzymes used in commercial detergents. Comparison between soaps and detergents. Environmental aspects. | ||||||||||||||||||||||||||||||||||||
Unit-6 |
Teaching Hours:5 |
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6. Research Methodology
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Introduction – meaning of research. Types of research, research methods vs methodology. Scientific method of conducting research. Review of literature. Selecting and defining a problem. Science journals. Impact factor, citation and citation index. Indexing agencies (Scopus, Web of Science), Research proposals | ||||||||||||||||||||||||||||||||||||
Text Books And Reference Books: [1] Ashutosh, K., Chemistry of natural products Vol. I, CBS Publications & Distributors 1st Edition 2010. [2] Ashutosh, K., Chemistry of natural products Vol. II, CBS Publications & Distributors 1st Edition 2012. [3] Bhat, S., Nagasampagi B., Sivakumar M., Chemistry of natural productsNarosa Publishing House New Delhi 2005. [4] Ahluwalia, V. K. Heterocyclic Chemistry, Narosa Publishing House New Delhi, 2016. [5]Bahl, A. & Bahl, B.S. Advanced Organic Chemistry, S. Chand, 2010.
[6]B. Mehta, M. Mehta, Organic Chemistry, PHI Learning Private Limited, 2017. | ||||||||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1] S.M. Mukherji, S. P. Singh, and R. P. Kapoor.Organic Chemistry. 3rd, 12th Reprint, New Delhi: New Age International (P) Ltd. Publishers, 2009. [2] I. L Finar, Organic Chemistry Vol. II, 5thed. New Delhi: ELBS and Longman Ltd., reprint 2008. [3] Jain and Sharma Modern Organic Chemistry 3rd edition, Vishal Publishing Company, 2009. [4] R. T Morrison, and R. N. Boyd.Organic Chemistry. 7thed. New Delhi: Prentice-Hall of India (P) Ltd., 2010. [5] Katritzky, A. R. Handbook of Heterocyclic Chemistry, 3rd addition, 2010.[6] Agrawal, O. P. Chemistry of Natural products vol I & II, 41st addition, 2014. | ||||||||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE541B - CHEMISTRY VB-INORGANIC CHEMISTRY (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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This course will introduce the students to concepts and applications of bioinorganic chemistry, nanomaterials, organometallic chemistry, industrial catalysis, inorganic polymers, metal clusters, sustainability, and climate change. |
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Learning Outcome |
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CO1: Explain concepts of bioinorganic chemistry CO2: Predict the bonding and structure of organometallic compounds. CO3: Perceive the concept of nuclear chemistry and acid-bases. CO4: Illustrate the concepts of sustainability, climate change and research methodology. |
Unit-1 |
Teaching Hours:10 |
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Bioinorganic Chemistry
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Metal ions in biological systems, Ion transport, Mechanism of action of sodium potassium pump. Oxygen transport systems- Metalloporphyrins - Haemoglobin and myoglobin, pH of blood,. Metal storage and transport – ferritin and transferrin, Electron transfer proteins-cytochromes, Chlorophyll and photosynthesis (mechanism not expected), Metalloproteins as enzymes – Carbonic anhydrase, Carboxy peptidase, cytochrome P 450, alcohol dehydrogenase,. Toxicity of metal ions-Pb, Hg and As. Anticancer drugs: Cis-platin, oxaliplatin and carboplatin – Structure and significance.
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Unit-2 |
Teaching Hours:9 |
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Organometallic Compounds
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Ligands, classification, hapticity. Eighteen electron rule for organometallic com complexes, Synthesis and structure and bonding (VBT only) a) K [PtCl3(-C2H4)] , [Fe(-C6H5)2] , [Cr(-C6H5)2], [W (CH3)6]. b) Metal carbonyls:- Ni(CO)4 , Fe(CO)5 , Cr(CO)6 , Co2(CO)8, Mn2(CO)10, Ferrocene Catalysis by organometallic compounds-Unique properties of Organo Aluminium compounds. Zeigler Natta catalyst in the polymerization of alkene, Wilkinson catalyst in the hydrogenation of alkene, Wacker process, Monsanto acetic acid process. (mechanism not expected).
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Unit-3 |
Teaching Hours:5 |
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Acids and Bases
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Prelearning: Concept of acidity and basicity. Arrheinus concept, Lewis concept Lowry – Bronsted concept of acids and bases. relative strengths of acid base pairs, Lux Flood concept, Solvent system concept, Limitations, relative strength of acids and bases. explanation of levelling effect on the basis of solvent system concept. Hard and soft acids and bases- Pearson concept, application of HSAB principles – Stability of compounds / complexes, predicting the feasibility of a reaction
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Unit-4 |
Teaching Hours:8 |
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Nuclear Chemistry
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Pre learning: N/P ratio, curves, stability belts. Nuclear binding energy. Mass defect, simple calculations involving mass defect and B.E per nucleon, half-life. Nuclear fission-Liquid drop model, Modes of release of fission energy nuclear reactors - Thermal and fast breeder breeder reactors, Disposal of radioactive waste from nuclear reactors, Nuclear fusion- thermonuclear reaction-energy source of the sun and stars. Radioactive tracers- use of radio isotopes in tracer technique, agriculture, medicine, food preservation and Carbon dating Artificial radioactivity, Induced radioactivity, Q value of nuclear reactions -Numerical problems. Atomic energy programme in India. **Case studies on Chernobyl and Fukushima nuclear disaster.
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Unit-5 |
Teaching Hours:8 |
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Sustainability and climate change
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Introduction, definition of sustainability in different context, environmental sustainability renewable sources of energy Hazard Mitigation: Identification of hazard prone belts, hazard zonation and risk assessment; risk reduction in vulnerable areas, developing warning systems, forecasting, emergency preparedness, education and training activities, planning for rescue and relief work. Disaster management: Industrial disasters: definition of disaster management; components of disaster management cycle- crisis management & risk management. Crisis management-quick response & relief, recovery, development. Risk management- risk identification & risk reduction-preparedness, prevention and mitigation. Climate Change: Anthropogenic–based climate change, Global Warming, Carbon Dioxide, Polar Ice Caps, ozone layer depletion, impact on biodiversity, Biofuels, Solar Power, case studies on climate change.
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Unit-6 |
Teaching Hours:5 |
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Research Methodology
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Introduction – meaning of research. Types of research, research methods vs methodology. Scientific method of conducting research. Review of literature. Selecting and defining a problem. Science journals. Impact factor, citation and citation index. Indexing agencies (Scopus, Web of Science), Research proposals | ||||||||||||||||||||||||||||||||||||
Text Books And Reference Books:
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Essential Reading / Recommended Reading
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Evaluation Pattern
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CHE551 - CHEMISTRY PRACTICALS V-PHYSICAL CHEMISTRY (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:02 |
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Course Objectives/Course Description |
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Course Description:This course introduces the students to various experiments on electrochemistry, chemical kinetics and thermometry. It also emphasizes the importance of organized and systematic approach in carrying out experiments. |
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Learning Outcome |
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CO1: Estimate the important parameters pertaining to electrochemistry, ionic equilibria and spectroscopy. CO2: Evaluate the conductance and potential difference exhibited by the compounds using conductometric and potentiometric methods applying them for various quantitative analysis. |
Unit-1 |
Teaching Hours:30 |
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Chemistry Practicals V -Physical Chemistry
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Level of knowledge: Conceptual/Analytical 1. Determination of the equivalent conductivity of 0.1 N NaCl 2. Determination of the dissociation constant of monochloracetic acid by conductivity method 3. Determination of the distribution coefficient of benzoic acid between water and toluene. 4. Determination of the solubility of a sparingly soluble salt (AgCl) by conductivity method. 5. Determination of the percentage of NaCl by miscibility temperature method. 6. Determination of Cu in aluminum and zinc based alloys using flame photometer. 7. Determination of potassium using flame photometer. 8. Determination of transition temperature of a salt hydrate by thermometric method 9. Determination of equivalent conductance, degree of dissociation and dissociation constant of a weak acid. 11. Conductometric titration: i)Strong acid vs. strong base ii)Mixture of strong acid and weak acid vs. strong base. ii)Weak acid vs. strong base 12. Potentiometry a) Strong acid vs. strong base b) Weak acid vs. strong base c) Potassium dichromate vs. Mohr's salt 13. Ionic equilibria and pH measurements a) Preparation of buffer solutions, determination of pH and comparison of the values with theoretical values. (i) Sodium acetate-acetic acid (ii) Ammonium chloride-ammonium hydroxide b) Measurement of pH of different solutions like aerated drinks, fruit juices, shampoos and soaps (use dilute solutions of soaps and shampoos to prevent damage to the glass electrode) using pH-meter. 14. Adsorption study a. Verification of Lanmuir adsorption isotherm
b. Verification of Frendlich adsorption isotherm | |||||||||||||||||||||||||||||||
Text Books And Reference Books: [1] Shoemaker and Garland Experiments in physical chemistry McGraw Hill International 8thedn., 2008.
[2] J.B. Yadav, Advanced practical chemistry by Krishna prakashan media (p) ltd,,29th ed. Meerut, 2010. | |||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1]F Daniels and F.A Alberty. Physical Chemistry. 4th ed. Wiley, 1996. [2 P.W Atkins, Physical chemistry,8th ed., Oxford University Press, 2006 [3] G.M. Barrow Physical chemistry, 5th ed.,tata, Mc Graw Hill,2006 [4] Glasstone Samuel, Textbook of Physical Chemistry. 2nd ed. Mcmillan, 2007. [5] B.R. Puri, L.R. Sharma, M.S. Pathania, Principles of Physical ChemistryVishal Publications, 2012 | |||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE551A - CHEMISTRY PRACTICALS VA-ORGANIC CHEMISTRY (2021 Batch) | |||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:02 |
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Course Objectives/Course Description |
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Course Description: This course introduces the students to the preparation and purification techniques of organic compounds. Systematic analysis of organic compounds is also included. It also emphasizes the importance of organized and systematic approach in carrying out experiments. |
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Learning Outcome |
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CO1:: Design organic reactions for various synthetic transformations. CO2:: Analyse organic compounds quantitatively and interpret spectroscopic characterisation of organic compounds. |
Unit-1 |
Teaching Hours:30 |
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Chemistry Practicals VA -Organic Chemistry (Elective)
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Organic Chemistry I. Preparations: Mechanism of various reactions involved to be discussed. Recrystallisation, determination of melting point and calculation of quantitative yields to be done. (a) Bromination of Phenol/Aniline (b) Benzoylation of amines/phenols (c) Oxime and 2,4-dinitrophenylhydrazone of aldehyde/ketone II Purification of organic compounds by crystallization (from water and alcohol) and Criteria of Purity: Determination of melting and boiling points. Detection of N, S and halogens in organic compounds. Systematic Qualitative Organic Analysis of Organic Compounds possessing monofunctional groups (-COOH, phenolic, aldehydic, ketonic, amide, nitro, amines) and preparation of one derivative.
III. Synthesis and Spectroscopic Analysis 1. Synthesis of benzoic acid from toluene and its spectral analysis. 2. Synthesis of acetanilide from aniline and its spectral analysis. 3. Synthesis of tribromophenol from phenol and its spectral analysis.
4. Synthesis of aspirin from salicylic acid and its spectral analysis. | |||||||||||||||||||||||||||||||
Text Books And Reference Books: [1] Vogel, A.I., Tatchell, A.R., Furnis, B.S., Hannaford, A.J. & Smith, P.W.G., Textbook of Practical Organic Chemistry, Prentice-Hall, 5th edition, 1996.
[2] Ahluwalia, V.K. & Aggarwal, R. Comprehensive Practical Organic Chemistry, Universities Press, 2012. | |||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1] Vogel, A.I., Tatchell, A.R., Furnis, B.S., Hannaford, A.J. & Smith, P.W.G., Textbook of Practical Organic Chemistry, Prentice-Hall, 5th edition, 1996.
[2] Ahluwalia, V.K. & Aggarwal, R. Comprehensive Practical Organic Chemistry, Universities Press, 2012. | |||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE551B - CHEMISTRY PRACTICALS VB-INORGANIC CHEMISTRY (2021 Batch) | |||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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This practical course consists of experiments that are designed to reinforce the learning of the theory course Novel Inorganic Solids. Experiments are either based on Preparation of materials or estimation of samples. |
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Learning Outcome |
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CO1: Explain concepts of bioinorganic chemistry
CO2: Predict the bonding and structure of organometallic compounds.
CO3: Perceive the concept of nuclear chemistry and acid-bases.
CO4: Illustrate the concepts of sustainability, climate change and research methodology.
|
Unit-1 |
Teaching Hours:30 |
Inorganic chemistry
|
|
1.Gravimetric estimation of amount of nickel present in a given solution as bis(dimethylglyoximato) nickel(II) 2. Gravimetric estimation of sulphate as BaSO 4 3. Gravimetric estimation of Ferric ions as ferric oxide 4. Gravimetric estimation of aluminium as oxinate in a given solution 5. Gravimetric estimation of magnesium as magnesium oxinate 6. Colorimetric estimation of ferrous ion using ortho-phenanthroline 7. Colorimetric estimation of copper as cuprammonium sulphate 8. Preparation of borax/ boric acid. 9. Determination of free acidity in ammonium sulphate fertilizer. 10. Estimation of calcium in calcium ammonium nitrate fertilizer. | |
Text Books And Reference Books: [1] Svehla, G. Vogel’s Qualitative Inorganic Analysis, Pearson Education, 2012. | |
Essential Reading / Recommended Reading [1]. Fahlman, B.D. Materials Chemistry, Springer, 2004. | |
Evaluation Pattern 1. Continuous internal assessment of Practicals ………… 20 Marks 2. Mid-term practical Test ………………………………… 20 Marks 3. Record assessment ……………………………………… 10 Marks 4. End-semester Practical examination ………………….. 50 Marks (Viva voce – 10 marks Performing experiment – 40 marks) TOTAL 100 Marks | |
ZOO531 - REPRODUCTIVE BIOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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To teach students the fundamentals of the biological process or reproduction, such as the endocrinology and physiology of male and female reproduction, puberty, lactation, and menopause, as well as the biology of normal and disordered pregnancy. Students will investigate how reproductive biology affects other aspects of health, as well as the effects of early life exposures on later health and the biology of reproductive cancers. |
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Learning Outcome |
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CO1: To understand the reproductive system and its functions in animals and man. CO2: To know the endocrine and neuroendocrine regulation of reproduction CO3: To think comprehensively in the field of reproductive biology CO4: To design, analyse, interpret and report results of experiments to increase knowledge of the field CO5: To understand how sexually transmitted diseases may contribute to altered neonatal or reproductive function |
Unit-1 |
Teaching Hours:11 |
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Reproductive Endocrinology
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Gonadal hormones and mechanism of hormone action, steroids, glycoprotein hormones, and prostaglandins, hypothalamo – hypophyseal – gonadal axis, regulation of gonadotrophin secretion in male and female; Reproductive System: Development and differentiation of gonads, genital ducts, Mullerian duct and Wolffian duct development, external genitalia, mechanism of sex differentiation; Disorders of sexual development-Xenohormones-E:P ratio issues. | ||||||||||||||
Unit-2 |
Teaching Hours:11 |
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Functional anatomy of male reproduction
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Outline and histological of male reproductive system in rat and human; Testis: Cellular functions, germ cell, system cell renewal mechanism; cell transformation pathways; Spermatogenesis: kinetics and hormonal regulation; Androgen synthesis and metabolism; Epididymal function and sperm maturation; Accessory glands functions; Sperm transportation in male tract, Blood testis barrier. | ||||||||||||||
Unit-3 |
Teaching Hours:12 |
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Functional anatomy of female reproduction
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Outline and histological of female reproductive system in rat and human; Ovary: folliculogenesis, ovulation, corpus luteum formation and regression; Steroidogenesis and secretion of ovarian hormones; Reproductive cycles (rat and human) and their regulation, changes in the female tract; Ovum transport in the fallopian tubes; Sperm transport in the female tract, fertilization; Hormonal control of implantation; Hormonal regulation of gestation, pregnancy diagnosis, feto – maternal relationship; Mechanism of parturition and its hormonal regulation; Lactation and its regulation. | ||||||||||||||
Unit-4 |
Teaching Hours:11 |
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Reproductive Health
|
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Infertility in male and female: causes, diagnosis and management; Assisted Reproductive Technology: sex selection, sperm banks, frozen embryos, in vitro fertilization, ET, EFT, IUT, ZIFT, GIFT, ICSI, PROST, PZD (Partial Zona Dissection) and SUZI (Sub Zonal Insemination); Contraceptive technologies; Demographic terminology used in family planning, Teratology-Teratogens and mode of action, Rh factor and its application, Diagnostic tools in reproductive health management. | ||||||||||||||
Text Books And Reference Books: 1. Knobil, E. et al. (eds). The Physiology of Reproduction. Raven Press Ltd. | ||||||||||||||
Essential Reading / Recommended Reading 1. Austin, C.R. and Short, R.V. reproduction in Mammals. Cambridge University Press. 2. Degroot, L.J. and Jameson, J.L. (eds). Endocrinology. W.B. Saunders and Company 3. Hatcher, R.A. et al. The Essentials of Contraceptive Technology. Population Information Programme | ||||||||||||||
Evaluation Pattern
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ZOO541A - AQUATIC BIOLOGY AND FISHERIES (2021 Batch) | ||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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To provide the students with fundamental understandings of various aquatic ecosystems, physicochemical properties of these ecosystems, commercially important aquatic species, rearing methods of fishes, aquaculture pond management, and various advances in the field of aquatic biology and fisheries. |
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Learning Outcome |
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CO1: To introduce various freshwater ecosystems and its components. CO2: The basic concept of Aquaculture their uses CO3: To familiarise with the various hatchery and outdoor culture practices CO4: To understand the importance of life as well as commercial feeds in aquaculture CO5: To manage the aquaculture ponds |
Unit-1 |
Teaching Hours:3 |
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Aquatic Biomass
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Brief introduction about aquatic biomass: Freshwater ecosystem (lakes, wetlands, streams, rivers), estuaries, intertidal zones, oceanic pelagic zone, marine benthic zone: | ||||||||||||||
Unit-2 |
Teaching Hours:5 |
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Freshwater Biology
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Lakes: Origin and classification, Lake as an ecosystem, Lake morphometry, Physio-chemical characteristics: light, temperature, thermal stratification; Dissolved solids: carbonate, bicarbonates, phosphates and nitrates; Turbidity; Dissolved gases, Nutrient cycles in lakes: nitrogen, sulphur, prosperous; Streams: different stages of stream development, physio-chemical environment, the adaptation of hill stream fishes. | ||||||||||||||
Unit-3 |
Teaching Hours:3 |
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Marine Biology
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Salinity and density of sea water, continental shelf, adaptations of deep-sea organisms, coral reefs, sea weeds. | ||||||||||||||
Unit-4 |
Teaching Hours:4 |
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Management of aquatic resources
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Causes of pollution: agriculture, industrial, sewage, thermal and oil spills, eutrophication, management and conservation (legislations), sewage treatment, water quality assessment: BOD and COD. | ||||||||||||||
Unit-5 |
Teaching Hours:5 |
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Fisheries
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Present status and scope of capture and culture fisheries, Criteria for selection of candidate species for aquaculture, Major candidate species for aquaculture freshwater, brackish-water and marine, Systems of aquaculture – river system, pond culture, cage culture, running water culture, zero water exchange system, etc. Different culture systems -Monoculture, polyculture and integrated. | ||||||||||||||
Unit-6 |
Teaching Hours:5 |
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Nutrition
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Types of feeds – artificial and live feeds, feed composition, feeding schedule, methods of feed formulation, storage and quality control, Major live feeds - phytoplankton and zooplankton – Chetocerous and Artemia | ||||||||||||||
Unit-7 |
Teaching Hours:4 |
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Disease control and management
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The infectious bacterial and viral disease, non-infectious diseases, Techniques in health management, chemotherapeutic agents, prophylaxis- vaccines, immunostimulants and probiotics. | ||||||||||||||
Unit-8 |
Teaching Hours:5 |
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Aquatic Biotechnology
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Biotechnological tools for aquaculture, transgenic fish production. Chromosomal manipulation, Cryopreservation of gametes and embryo. | ||||||||||||||
Text Books And Reference Books: 1. Anathakrishnan: Bioresources Ecology 3 rd edition 2. Goldman. Limnology, 2nded. 3. Odum and Barrett. Fundamentals of Ecology, 5thed. 4. Trivedi and Goyal. Chemical and biological methods for water pollution studies 5. Pawlowski, Physiocochemcial methods for water and wastewater treatment, 1sted. 6. Pillay T.V.R.1995. Aquaculture Principles and Practices. Fishing New Books, Blackwell Science Ltd., Oxford. | ||||||||||||||
Essential Reading / Recommended Reading 1. JhingranV.J., 1991. Fish and Fisheries of India. Hindustan Publishing corporation, New Delhi. 2. Santhanam, Sugmaran and P.Natarajan, 1997. Manual of Fresh Water Aquaculture. Oxford and IBHPub.Co., Ltd., New Delhi. 3. Shanmugam.K, 1990. Fishery Biology and Aquaculture. Leo Pathippagam, Madras – 600 083. 4. Biswas S.P., 1993. Manual of Methods in Fish Biology. South Asian Publishers Pvt. Ltd., New Delhi. 5. Kurian C.V. and V.O. Sebastien 1982. Prawnsand Prawn Fisheries of India. Hindustan Publishing Corporation New Delhi. 6. GovindanT.K. 1985. Fish Processing and Technology. Oxford and IBHPub.Co., Ltd., New Delhi. 27 7. Srivastava, C.B.L., 1985. A Text book of Fishery Science and Indian | ||||||||||||||
Evaluation Pattern
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ZOO541B - PARASITOLOGY AND MEDICAL ENTOMOLOGY (2021 Batch) | ||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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The paper describes the principles of parasitology, which are used to study a wide variety of animal species. Furthermore, this paper will look at the host-parasite relationship, disease epidemiology, and insects of economic importance. These topics will assist students in absorbing the majority of the fundamentals of applied zoology, which will aid them in understanding the advanced topics in this field. |
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Learning Outcome |
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CO1: To demonstrate knowledge of the biology and life cycles of major parasites CO2: Outline the mode of transmission, pathogenesis and identification and control of helminths and protozoa CO3: Describe pathogenesis, clinical signs and symptoms and complications of parasitic infections CO4: Outline the treatment for various parasitic infections, giving the methods of prevention and control of infection at individual and community levels. CO5: Safely handle infectious materials of parasitic origin, especially in hospital |
Unit-1 |
Teaching Hours:9 |
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Introduction to Parasitology
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General Introduction- Animal Associations, Homogenetic and Heterogenetic Associations, Parasitism, Commensalism, Symbiosis. Parasitism- classes of parasites. Classes of hosts- sources and mode of infection –pathogenesis-pathogenic effects. Protozoa- General features and classification. Amoebae and Entamoeba histolytica- difference between Amoebic dysentery and Bacillary dysentery | ||||||||||||||
Unit-2 |
Teaching Hours:9 |
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Disease parasitology
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Flagellates: Intestinal flagellates- Typical example Morphology Life cycle- Diagnosis and treatment. Haemoflagellates: Morphology - Diagnosis, treatment- vectors and reservoirs. Leishmania- Morphology, ecological types, pathology, diagnosis, treatment. Malaria parasites- Morphology- human plasmodia- pathogenesis diagnosis- treatment. Flukes- Blood flukes- Morphology and life cycle. Hook and Guinea worms Round worms- Morphology and pathogenesis- Diagnosis and treatment. | ||||||||||||||
Unit-3 |
Teaching Hours:9 |
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Medical Entomology:
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Introduction and history of medical entomology- Venomous arthropods, arthropods as direct agents - causes of allergies by Insects- delusory parasitosis- Epidemiology of vector-borne disease- Mechanical transmission by arthropods- Vector competence. | ||||||||||||||
Unit-4 |
Teaching Hours:9 |
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Diagnostic Entomology:
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Different types of Diagnostic methods in parasitology - Examination of faeces, Wet mount, blood smears, concentration method, sedimentation methods- egg count- culture methods- Animal inoculation xenodiagnosis- Immunological diagnosis. | ||||||||||||||
Unit-5 |
Teaching Hours:9 |
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Epidemiology of Insects:
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Insect Physiology and Morphology – General structure and metamorphosis, Insects Digestive System, Nervous System, Reproductive System, Circulatory System and Excretory System, Visual organs and Olfactory System. Bionomics of Insects: Morphology, Life History, Bionomic and importance of common insects, Housefly, Honeybee etc. | ||||||||||||||
Text Books And Reference Books: Biological Control of Parasites, 2012 Biology of Malaria Parasites, 2012 | ||||||||||||||
Essential Reading / Recommended Reading Biological Control of Parasites, 2012 Biology of Malaria Parasites, 2012 | ||||||||||||||
Evaluation Pattern
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ZOO551 - REPRODUCTIVE BIOLOGY LAB (2021 Batch) | ||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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To teach students the fundamentals of the biological process or reproduction, such as the endocrinology and physiology of male and female reproduction, puberty, lactation, and menopause, as well as the biology of normal and disordered pregnancy. Students will investigate how reproductive biology affects other aspects of health, as well as the effects of early life exposures on later health and the biology of reproductive cancers. |
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Learning Outcome |
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CO1: To know male & female reproductive organs. CO2: To learn surgical techniques in experimental animals for population control. |
Unit-1 |
Teaching Hours:30 |
Reproductive Biology Lab
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1. Study of animal house: set up and maintenance of animal house, breeding techniques, care of normal and experimental animals. 2. Examination of vaginal smear from live rats (spotters). 3. Steroid hormones examination under experimental conditions -Pathway slides 4. Surgical techniques: principles of surgery in endocrinology, Ovariectomy, tubectomy, hysterectomy, castration and vasectomy in rats. 5. Examination of reproductive organs 6. Histological sections of gonads _ testis and ovary of fishes 7. Examination of histological sections from photomicrographs/ permanent slides of rat/human: testis, epididymis and accessory glands of male reproductive systems; 8. Examination of histological sections from photomicrographs/ permanent slides of Sections of ovary, fallopian tube, uterus (proliferative and secretory stages), cervix and vagina. 9. Human vaginal exfoliative cytology (specimen). 10. The study of CASA (Computer Aided Sperm Analysis) 11. Study of contraceptive devices 12. Pregnancy detection assay 13. LH surge detection assay 14. Histological examination of Placenta types | |
Text Books And Reference Books: 1. Knobil, E. et al. (eds). The Physiology of Reproduction. Raven Press Ltd. | |
Essential Reading / Recommended Reading 1. Austin, C.R. and Short, R.V. reproduction in Mammals. Cambridge University Press. 2. Degroot, L.J. and Jameson, J.L. (eds). Endocrinology. W.B. Saunders and Company 3. Hatcher, R.A. et al. The Essentials of Contraceptive Technology. Population Information Programme | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
ZOO551A - AQUATIC BIOLOGY AND FISHERIES LAB (2021 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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To provide students with fundamental understandings of various aquatic ecosystems, physicochemical properties of these ecosystems, commercially important aquatic species, rearing methods, aquaculture pond management, and various advances in the field of aquatic biology and fisheries. |
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Learning Outcome |
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CO1: To assess the influence of various environmental parameters on aquaculture CO2: To learn by Modern analytical methods used in environmental monitoring. CO3: To learn by visiting, how pollution & other human influence affect the aquatic systems |
Unit-1 |
Teaching Hours:30 |
Aquatic Biology and Fisheries Lab
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1. Determination of area of the lake using graphimetric and gravimetric methods. 2. Morphometric and Meristic Characters of fish 3. Identify the important macrophytes, phytoplankton and zooplanktons present in a lake ecosystem. 4. Determination of amount of hardness, DO, free CO2, and alkalinity in water collected from a nearby lake/ water body 5. Instruments used in limnology (Secchi disc, Van Dorn Bottle, Conductivity meter, Turbidity meter, PONAR grab sampler) and their significance. 6. Estimation of ammonia, nitrite, and nitrate in water samples using the kit 7. Identification of common finfishes using dichotomous keys (Selected orders) 8. Live feed (Artemia) culture - Demonstration 9. Determination of maturity stages, fecundity, GSI and ova diameter 10. Dissection and display of reproductive system (male and female) of fish-demonstration 11. Identification of moult stages in crustaceans - Demonstration 12. Isolation and quantification of DNA. Electrophoresis, PCR, Western blot, DNA hybridization. 13. A project report on a visit to a sewage treatment plant/ Marine bioreserve/ fisheries institution/ Field visits – Aquaculture farms and hatcheries. | |
Text Books And Reference Books: 1. Anathakrishnan: Bioresources Ecology 3 rd edition 2. Goldman. Limnology, 2nded. 3. Odum and Barrett. Fundamentals of Ecology, 5thed. 4. Trivedi and Goyal. Chemical and biological methods for water pollution studies 5. Pawlowski, Physiocochemcial methods for water and wastewater treatment, 1sted. 6. Pillay T.V.R.1995. Aquaculture Principles and Practices. Fishing New Books, Blackwell Science Ltd., Oxford. | |
Essential Reading / Recommended Reading 1. JhingranV.J., 1991. Fish and Fisheries of India. Hindustan Publishing corporation, New Delhi. 2. Santhanam, Sugmaran and P.Natarajan, 1997. Manual of Fresh Water Aquaculture. Oxford and IBHPub.Co., Ltd., New Delhi. | |
Evaluation Pattern ontinuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
ZOO551B - PARASITOLOGY AND MEDICAL ENTOMOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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The paper describes the principles of parasitology, which are used to study a wide variety of animal species. Furthermore, this paper will look at the host-parasite relationship, disease epidemiology, and insects of economic importance. These topics will assist students in absorbing the majority of the fundamentals of applied zoology, which will aid them in understanding the advanced topics in this field. |
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Learning Outcome |
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CO1: Students will have a thorough understanding and awareness of entomology concepts and principles. CO2: Students will be able to assess the economic and medical importance of insects and evaluate a variety of conservation strategies CO3: To know about the insects : Insect vectors & pathogens for human health. |
Unit-1 |
Teaching Hours:30 |
Parasitology and Medical Entomology Lab
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1. Blood smear collections, and Staining using Jaswant Singh–Bhattacharji (JSB) stain 2. Spotters and Identification of Anophelines 3. Identification of Culicines using JSB stain 4. Demonstration of IgM antibody assay. 5. Demonstration of Weil-Felix test for Rickettsial infection sero diagnosis by ELISA 6. Identification of Ticks and Mites. 7. Materials and techniques for collection, transportation, preservation, mounting, rearing of insects 8. Different types of faecal examination 9. Salivary amylase activity of insects 10. Estimation of total nutrients absorption capacity of insect 11. Toxicity estimation of different insecticides 12. Field visit to insect park. | |
Text Books And Reference Books: A century of parasitology : discoveries, ideas and lessons learned, (2016) | |
Essential Reading / Recommended Reading A century of parasitology : discoveries, ideas and lessons learned, (2016) | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
BTY631 - ANIMAL BIOTECHNOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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Animal biotechnology focuses on the manipulation of genes in animals – introduction and knockout of genes and their effects, different systems available for the production of sustainable industrial products and important therapeutic and diagnostic drugs and vaccines for medical and veterinary use. |
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Learning Outcome |
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CO1: Students will be able to understand the applications of cell culture and stem cells. CO2: Students will be able to understand the concepts of cell culture which includes culture
methods, characterization, monitoring tools. CO3: Students will be able to understand the methods involved in the artificial reproductive
technology CO4: Students will understand the basics of vaccine development. CO5: Students will understand the applications and process involved in the development of
transgenic animals |
Unit-1 |
Teaching Hours:5 |
Introduction to Cell Culture and Growth Medium
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History and scope of animal cell and tissue culture, advantages and disadvantages of tissue culture, requirement of animal cell culture lab, sterilization techniques, types of medium (Defined and undefined), significance of serum, Growth factors promoting proliferation of animal cell culture - EGF,FGF,PDGF,TGF,IL, IGF. | |
Unit-2 |
Teaching Hours:5 |
Establishment of Cell Line and Scaling Up
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Primary culture, Disaggregation of tissue (physical, chemical methods- trypsin, collagenase), secondary cell lines, continuous cell lines, characteristics of cell lines, maintenance of cell lines, measurement of cell viability - Evan’s blue method, Trypan blue method, Anchorage dependent cell lines- Roux bottle, Roller bottle, anchorage independent cell lines- Stirred bioreactor, airlift bioreactor, immobilized bioreactor, product recovery and purification | |
Unit-3 |
Teaching Hours:5 |
Organ Culture and in vitro Fertilization
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Culture techniques- Plasma Clot, Raft methods, Agar gel, Grid method. Tissue engineering-artificial skin, artificial cartilage. IVF- in vitro fertilization of farm animals, need for IVF, techniques used - induction of superovulation, preparation and collection of oocytes, preparation of spermatozoa, in vitro fertilization and development, embryo transfer & its advantages, IVF in humans- significance, Bioethics and regualtions in artificial reproductive technology | |
Unit-4 |
Teaching Hours:5 |
Embryonic stem cells
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Definition and importance, Source of stem cells, Properties of stem cell, Embryonic stem cell culture, cellular potency, lineage commitment, cellular development and differentiation, stimulation of embryonic stem cells to differentiate, generation of induced pluripotent cells, therapeutic adult stemcells - source, differentiation, similarities between adult and embryonic stem cells, applications, concept of cord blood banking, Bioethics, Good Laboratory Practices (GLP) and Good Manufacturing Practices (GMP) – guidelines. | |
Unit-5 |
Teaching Hours:7 |
Gene expression systems
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Prokaryotic and eukaryotic gene expression systems- types, ways of manipulating gene expression, pET system for expressing proteins - vector and the mechanism, animal expression systems- yeast based, insect cell line based, mammalian vectors, High level production of transgene products – hormones and vaccines - in animal cells, Human growth hormone, Human insulin, examples of FDA approved recombinant drugs. | |
Unit-6 |
Teaching Hours:7 |
Vaccines and Therapeutic Agents
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Recombinant vaccines, Sub unit vaccines – Hepatitis B, Foot and mouth disease, Herpes simplex virus vaccines their production, DNA vaccines, Advantages and disadvantages RNA vaccine, Production of viral vaccine. Monoclonal antibodies -Large scale production, diagnostic and therapeutic uses in diseases like cancer, AIDS etc., Human monoclonal antibodies, Genetic engineering strategies for monoclonal antibodies, Human-mouse antibodies, Advantages and limitations of monoclonal antibodies, examples of McAb based drugs available in the market. | |
Unit-7 |
Teaching Hours:8 |
Transgenic animals
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Objective of gene transfer, gene transfer methods- Retroviral Vector method, vaccinia viral vector method, DNA microinjection method, Engineered embryonic stem cell method, Detection of transgenes, Transgenic mice and their applications in understanding normal and disease conditions of physiological processes, Significance and production of human mouse, Onco mouse, Gene knock outs- strategies, importance, knock out mouse, SCID mouse, Cloned animals- Dolly, transgenic animals -Transgenic sheep, cow, fish, pig etc., pharming,preservation of endangered species, animal bioreactors and their importance. | |
Unit-8 |
Teaching Hours:3 |
Gene therapy
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Mechanism, approaches for gene therapy, pre-clinical modelling to patient therapy, ex vivo gene therapy, in vivo gene therapy, somatic and germline therapy, antisense therapy, gene therapy for Adenosine deaminase, Hemophilia, clinical translation of genetherapy products, Limitations, status and ethics of gene therapy. | |
Text Books And Reference Books: 1 U. Sathyanarayana. Biotechnology. New Delhi: Books and Allied (P) Ltd. 2005. 2 I. Freshney. Culture of Animal Cells. New York: John Wiley and Sons, 2006. | |
Essential Reading / Recommended Reading 1. M. Butler. Animal Cell Culture and Technology – the basics, 2nd ed, UK: Taylor and Francis, 2004. 2.S. Gangal. Principles and Practice of Animal Tissue Culture, 2nd ed, Hyderabad: Universities, Press, 2010. 3. B. Alberts, A. Johnson, J. Lewis, M. R. K. Roberts and P. Walter. Molecular Biology of the Cell, USA: Garland Science Publishing, 2008. 4. L. Houdibine. Animal Transgenesis and Cloning, New York: John Wiley & Sons, Ltd, 2003. | |
Evaluation Pattern CIA1- 10% CIA2- 25% CIA3- 10% Attendance - 5%
ESE- 50% | |
BTY641A - ALGAL BIOTECHNOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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The paper deals with the study of diversity of algae and their commercial importance.it further deals with the application of algae in food, medicine, agriculture and as fuel. |
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Learning Outcome |
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CO1: To introduce the students to these myriad possibilities of utilizing algae
CO2: to understand the basic biology of algae including growth, reproduction, habitat etc, ways of manipulating algal growth, products obtained from algae and the exploitation of various algae in the field of biotechnology. CO3: More emphasis is given on its utility as food and increasingly as biofuel production cells CO4: stress is given on aspects of genetically modifying strains of useful algal
species to increase its potential |
Unit-1 |
Teaching Hours:6 |
Introduction to algae
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Classification of Algae, Chemical composition: protein, amino acids, lipids, waxes, glycerol, vitamins, pigments, chlorophyll, carotenoids and phycobiliproteins, flagellation, reserve food, Reproduction(vegetative-asexual-sexual); Lifecycle, Lichens – types and functional significance, distribution of economically important algae in India.
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Unit-2 |
Teaching Hours:8 |
Culture of algae
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Growth pattern of algae, culture conditions, ways of optimising algal growth, growth curve , , Algal production systems; Strain selection; Algal growth curve; Culture media; indoor cultivation methods and scaling up, photobioreactors, product and strain improvement technique, Large-scale cultivation of algae. Evaporation and uniform dispersal of nutrients; Harvesting algae. Drying. | |
Unit-3 |
Teaching Hours:4 |
Algae as food and fodder
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Uses of algae in agriculture, important species used ad fodder, commercial products of algae: Agar Agar, Alginates, Carrageenin, diatomite, mucilage, minerals Unit 4- Algae in medicine | |
Unit-4 |
Teaching Hours:3 |
Algae in medicine
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Algae for medical applications (eg: Laminaria, Sargassum, Digenia etc) , algae in space research. Role of algae in nanobiotechnology | |
Unit-5 |
Teaching Hours:7 |
Algae as fertilizer
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Cyanobacterial inoculants (BGA): Isolation, preparation of starter culture, mass cultivation, field applications and crop response, molecular biology of Nitrogen fixation, genes involved, ways of genetic manipulation to increase Nitrogen fixation efficiency | |
Unit-6 |
Teaching Hours:8 |
Algae as fuel
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Common species used, chemistry of algal biofuel synthesis, composition of algal biofuel, ways of extraction of biofuel, Steps for producing biodiesel from algae, role of transesterification uses, blending etc, research on algal biofuels | |
Unit-7 |
Teaching Hours:5 |
Marine algae
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Important marine algal species and their uses, macro algae (eg: kelp, Sargassum) - uses, associationsetc, Microalgae (eg: - Emiliania, Gephyrocapsa)- uses and associations. Phycoremediation | |
Unit-8 |
Teaching Hours:4 |
Algal control
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Algal bloom, eutrophication, methods of control of algae; Algicides-preparation and Application; ultrasonic sound producing devices to control algae. Algal culture collection centers in India and abroad and their importance; Centers pursuing algal research in India and their field of interest. | |
Text Books And Reference Books: 1. Pandey A, Lee D, Chisti Y, and Soccol C, 2013. Biofuels from algae, Elsevier. 2. Fritsch, F. E. 1961, Structure and reproduction in algae, Vol - I, & II Cambridge University Press, London 3.Barsanti, LAURA AND PAOLO GUALTIERI 2005 Algae-Anatomy, Biochemistry and Biotechnology. Taylor & Francis, London, New York. | |
Essential Reading / Recommended Reading 1. Becker, E.W. 1994 Microalgae-Biotechnology and microbiology. Cambridge University Press. 2. Trivedi, P.C. 2001 Algal Biotechnology. Pointer publishers, Jaipur, India. | |
Evaluation Pattern CIA1- 10% CIA2-25% CIA3-10% Attendance- 5%
ESE-50% | |
BTY641B - ENVIRONMENTAL BIOTECHNOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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Environmental Biotechnology utilizes microorganisms to improve environmental quality. These improvements include treatment of contaminated waters and wastewaters, clean up of industrial waste streams, and remediation of soils contaminated with hazardous and toxic chemicals |
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Learning Outcome |
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CO1: Introduces the students with basics of environmental pollution. CO2: Students will develop in depth knowledge about bioremediation and phytoremediation. CO3: Provides understanding about waste water and sludge treatment. CO4: Helps the students to gain understanding about the merits and demerits of
genetic modification CO5: Provides fundamental idea about alternative fuels |
Unit-1 |
Teaching Hours:5 |
Environmental pollution
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Basic concepts of environment (Atmosphere, Hydrosphere, Lithosphere, Biosphere), source and nature of pollution, common pollutants in air, water, soilBiomonitoring(Visual rating, Genotoxicity, metabolic rating, Plant test system, Animal test system, Biosensor, cell and molecular biology in monitoring) | |
Unit-2 |
Teaching Hours:6 |
Biotechnological methods for pollution Management
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Atmospheric CO2reduction, Photosynthesis to reduce atmospheric CO2, Biological calcification to reduce atmospheric CO2, Sewage treatment by bacteria and algae, Eutrophication and phosphorus pollution, Biological removal of phosphorus, Management of metal pollution, Bioscavengers of metals, Mechanism of metal scavenging, Immobilized cells in the management of pollution. | |
Unit-3 |
Teaching Hours:5 |
water pollution and sewage
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Nature of pollutants, composition of sewage, techniques to measure water pollution-BOD, COD, sewage water treatment, primary secondary and tertiary treatments, Industrial effluent treatment from tannery. Water portability, chemical and Biological pollutants, water borne diseases, | |
Unit-4 |
Teaching Hours:5 |
Solid waste management
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Sources and characteristics of sludge, Preliminary operations, Sludge thickening and stabilization, Conditioning and disinfection of sludge, disposal of sludge, landfills, composting types- aerobic and anaerobic, vermicomposting. | |
Unit-5 |
Teaching Hours:6 |
Alternate sources of fuel
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Conventional fuels and their environmental impact, Modern fuels– Advantages over conventional fuels. Methanogenic bacteria, Composition and production of Biogas, Microbial hydrogen Production, biodiesel, biohydrogen. | |
Unit-6 |
Teaching Hours:4 |
Bioremediation
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Bioremediation of soil & water contaminated with oil spills, heavy metals and detergents. Degradation of lignin and cellulose using microbes. Phytoremediation, Types of phytoremediation - rhizofiltration, phytovolatalisation,rhizodegradation. | |
Unit-7 |
Teaching Hours:5 |
Bioleaching
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Definition, Types-Direct and Indirect Bioleaching, In-situ and ex-situ, Bio mining of ores (Gold, copper, and Uranium), Advantages and Disadvantages of Microbial Leaching | |
Unit-8 |
Teaching Hours:9 |
Integration of genetic engineering & applied microbiology in Agriculture
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Genetically modified organisms into environment, safety issues, laws governing release of GMOs in different countries, BT Brinjal as food, Roundup Ready Maize, and its effect on environment, Agriculture- bio fertilizers (rhizobium, mycorrhiza), nif gene cloning. Preparation of biofertilizers, advantages and limitations of biofertilizers | |
Text Books And Reference Books: 1. Sathyanarayana. U, Biotechnology. Books and Allied (P) Ltd, Kolkota: 2008. 2. Jogdand S.N, Environmental Biotechnology. 3rd Edn, India: Himalaya Publication House, 2001. 3. Singh B.D, Biotechnology. 2nd Edn,New Delhi: Kalyani Publishers, 2007. | |
Essential Reading / Recommended Reading 1. Ashim. K. Chakravarthy, Introduction to Environmental Biotechnology2ndEdn, India: OUP,India, 2013. 2. Hans Joachim Joedening and Josef winter, Environmental Biotechnology: Concepts and applications, Wiley Blackwell, United states: 2004. 3. T.K. Srinivas, Environmental Biotechnology 1stEdn, India: New Age International Pvt Ltd, 2008 4. A.K. Chaterji, Introduction to Environmental Biotechnology 3rdEdn, Prentice-Hall of India Pvt.Ltd, April 2011 | |
Evaluation Pattern CIA1- 10% CIA2-25% CIA3-10% Attendance- 5% ESE-50% | |
BTY641C - DEVELOPMENTAL BIOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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This paper deals with fundamentals of embryonic development and organogenesis. It explains the models for cell signalling and late embryonic development in development of human diseases. |
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Learning Outcome |
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CO1: To introduce the concepts and process in animal development CO2: To help students to understand and appreciate the basic and genetic mechanisms and
the unfolding of the same during development. CO3: The paper deals with the molecular basis of embryonic stages and development. CO4: This paper highlights the fundamentals of regeneration in animals. CO5: To expose the learner to the new developments in embryology and its relevance to humans |
Unit-1 |
Teaching Hours:5 |
History and basic concepts
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The origin of developmental biology; basic concepts of developmental biology- cell division, cell differentiation, signaling, model systems: mammals, | |
Unit-2 |
Teaching Hours:10 |
Early embryonic development
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Gametogenesis: Structure of gametes (sperm & egg), Spermatogenesis and oogenesis (w.r.t mammals), Types of eggs, vitellogenesis in birds; cell surface molecules in sperm egg, recognition in animals. Fertilization: external (amphibians), internal (mammals), Significance of fertilization, approximation of gametes, Capacitation, Acrosome reaction, formation of fertilization membrane, egg activation, Blockage to polyspermy. | |
Unit-3 |
Teaching Hours:10 |
Stages of devoplment
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Zygote, cleavage, blastula, gastrula, neurula and organogenesis,differential gene expression during formation of germ layers. Early development of frog and humans (structure of mature egg and its membranes, patterns of cleavage, fate map, up to formation of gastrula); types of morphogenetic movements; Fate of germ layers; Neurulation in frog embryo. | |
Unit-4 |
Teaching Hours:10 |
Late embryonic development
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Metamorphic events in frog life cycle and its hormonal regulation, Implantation of embryo in humans, Formation of human placenta and functions, other types of placenta on the basis of histology. Retrogressive metamorphosis: As exhibited by an ascidian. Development in Health and Disease. | |
Unit-5 |
Teaching Hours:10 |
Metamorphosis and Regeneration in Animals an overview
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Types of metamorphosis in insects and amphibians, hormonal control of metamorphosis in insects and amphibians, Heterochrony, Polarity and Metaplasia in regeneration. | |
Text Books And Reference Books: 1. Kardong, K.V. (2005) Vertebrates’ Comparative Anatomy, Function and Evolution. IV Edition. McGraw-Hill Higher Education. 2. Kent, G.C. and Carr R.K. (2000). Comparative Anatomy of the Vertebrates. IX Edition. The McGraw-Hill Companies. 3. Hilderbrand, M and GaslowG.E. Analysis of Vertebrate Structure, John Wiley and Sons. | |
Essential Reading / Recommended Reading 1. Walter, H.E. and Sayles, L.P; Biology of Vertebrates, Khosla Publishing House. 2. Gilbert, S. F. (2006). Developmental Biology, VIII Edition, Sinauer Associates, Inc., Publishers, Sunderland, Massachusetts, USA. 3. Balinsky, B.I. (2008). An introduction to Embryology, International Thomson Computer Press. 4. Carlson, Bruce M (1996). Patten’s Foundations of Embryology, McGraw Hill, Inc. | |
Evaluation Pattern CIA1- 10% CIA2-25% CIA3-10% Attendance- 5%
ESE-50% | |
BTY641D - HUMAN GENETICS (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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The paper imparts practical knowledge on human genetics and its applications. Moreover it deals with the importance of cytogenetics, different types of diagnostic methods and importance of human genetics in the medical diagnosis field. Molecular cytogenetics is also included to get better acquainted with microscopy techniques which are of great significance in this domain. |
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Learning Outcome |
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CO1: To provide the knowledge about the genetic influence and history of human genetics CO2: To understand the principles and mechanisms of the inheritance from one generation to
the next. CO3: To get updated with the knowledge on genetic diseases and its research approach. CO4: To get familiarized with microscopy techniques cytogenetics. |
Unit-1 |
Teaching Hours:6 |
Basics of human genetics
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Introduction to Human Genetics-Identification of human chromosome – characterization. Various Banding techniques (G, C, Q, R). Designating structural chromosomal abnormalities by break points and band composition and sister chromatid exchange studies | |
Unit-2 |
Teaching Hours:6 |
Basics of cytogenetics
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International System for Human Cytogenetic Nomenclature (ISCN) and Quality Assurance-Paris Nomenclature- Introduction to Cancer Cytogenetics: Application of cytogenetics in cancer diagnosis, analysis and interpretation. | |
Unit-3 |
Teaching Hours:6 |
Chromosomal syndromes
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Autosomal abnormalities – Down syndrome, Edward syndrome, Patau syndrome, Cri-du-chat syndrome. Sex chromosomal syndrome; Klinefelter’s syndrome, Turners syndrome, multiple XXX syndrome, XYY male. | |
Unit-4 |
Teaching Hours:6 |
Human biochemical genetics
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Introduction of Human Biochemical Genetics - Inborn errors of metabolism – Amino acid metabolism, Phenylketonuria. Disorders of Purine metabolism: Lesh Nyhan syndrome. Disorders of carbohydrate metabolism – Galactosemia. Immunogenetics – Introduction to immune response – the cellular basis of immune responses – Immune deficiency disorders. | |
Unit-5 |
Teaching Hours:6 |
Basics of cancer genetics
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A brief account of cancer-definition, types-Benign and Malignant; Sarcoma, Carcinoma, Lymphoma and Leukaemia Properties of malignant cells, Types of genes - Proto oncogenes, Oncogenes, Tumor Suppressor genes-p53, pRb. Chromosomal abnormalities associated with the specific malignancies- Types of Leukemia. | |
Unit-6 |
Teaching Hours:6 |
prenatal diagnostic techniques
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Invasive prenatal diagnosis: Buccal smear test, Amniocentesis – Chorionic villi and fibroblast sampling and cultures. Advantages and Limitations of Prenatal Diagnosis: Introduction and types of Non – Invasive Prenatal diagnosis. | |
Unit-7 |
Teaching Hours:6 |
Molecular Diagnostic Techniques
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Introduction to Molecular Cytogenetics -Clinical Applications of Fluorescence in situ Hybridization (FISH), Spectral Karyotyping (SKY)-Restriction Fragment Length Polymorphism (RFLP). Applications of molecular prenatal Diagnosis. | |
Unit-8 |
Teaching Hours:3 |
Dermatoglyphics
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Dermatoglyphics in clinical disorders-. Clinical applications, DMIT Test, Types and applications of Palm creases. | |
Text Books And Reference Books: 1. Textbook of Endocrinology – Robert H. Williams. (1974 & 1985) W.B. Saunder’s co., Philadelphia 2. Duncan’s Disease of Metabolism – P.K. Bondy and L.E. Rosenberg (1974) W.B. Sounders Co., Philadelphia. 3. Vogel R and Rohroborn C (1970): Chemical, mutagenes in mammals and man – springer – verlag, Berlin. | |
Essential Reading / Recommended Reading 1. Brusick, D (1980): Principles of genetic toxicology, - Plenum Press. 2. Genetic Engineering & Biotechnology – V.L. Chopra and Auswar Nasim, Oxford & IBM Publishing Co., Pvt. Ltd., New Delhi, 1990 3. Biotechnology – Keshav Trehan. Wiley Eastern Limited, New Delhi, 1990. 4. Reproductive Genetics & Law: Sherman Elias & George J. Annas year book Medical Publishers Inc., Chicago, 1987. 5. Human chromosomes – Orlando J. Miller, Eeva Therman – Springer Pub. (2001) 6. Principles of Medical Genetics –Thomas d. Gelebrter Francis S. Collins,Williams & Wilkin’s IB. | |
Evaluation Pattern CIA1- 10% CIA2-25% CIA3-10% Attendance- 5%
ESE-50% | |
BTY651 - ANIMAL BIOTECHNOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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The papers describes the fundamental aspects of setting up of a small scale animal cell culture lab. It also deals with the basic principles and procedures in animal cell culturing. |
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Learning Outcome |
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CO1: The paper imparts practical knowledge on the culture of animal cells. CO2: The paper deals with requirements of animal cell culture lab, different types of media
preparation, initiation of cell culture and maintenance of cells. CO3: Cell viability assays are also included to get better acquainted with microscopy
techniques which are of great significance in cell culture studies. CO4: The paper helps in understanding the basics of preparation of animal cell culture media. CO5: Students will be able to assess the cytotoxic effects of drugs |
Unit-1 |
Teaching Hours:60 |
Experiment details
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1 Set up of small scale animal cell culture lab 2 2 Sterilization techniques in Animal Cell Culture Lab. 1 3 Preparation of animal cell culture media - Minimal Essential Growth medium, Hanks Balanced salt solutions
4 Isolation of liver parenchyma cells by enzymatic method 5 Isolation of liver parenchyma cells by mechanical method 6 staining of cells 7 Isolation of lymphocytes for culturing 8 Primary Cell Culture and maintenance of cell lines 9 DNA isolation from animal tissue 10 Quantification of isolated DNA using spectrophotometer 11 Micronucleus test 12 Assay of Cell Viability and cell toxicity by dye (Trypan Blue) exclusion 1 13 Visit to an Animal Cell Culture Lab | |
Text Books And Reference Books: I. Freshney. Culture Of Animal Cells. New York: John Wiley and Sons, 2006. | |
Essential Reading / Recommended Reading 1. Rajan S and Christy R S. Experimental Procedures in Life Sciences. Chennai. Anjana Book House, 2010. | |
Evaluation Pattern CIA1-20% (Performance) CIA2-20% (MSE) CIA3-10% (Record)
ESE-50% | |
BTY651A - ALGAL BIOTECHNOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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This paper deals the principles and procedures of identification and study of various groups of algae. Further the paper deals with the application of algae as food and fuel. |
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Learning Outcome |
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CO1: aims to make the students understand the basic structural features of commercially important algal species. CO2: Helps in study of species identification. Modules on permanent slide preparation will
come handy while performing bioprospecting studies. CO3: Helps to give confidence in students in collection, identification, classification and utilization of
important algal species. CO4: The paper highlights the applications and prospects of algal biotechnology. |
Unit-1 |
Teaching Hours:60 |
Experiments details
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1. Morphological study and preparation of temporary slides of Anabaena, Volvox, Sargassum, Chlorella and Polysiphonia etc 1 unit 2. Cultivation of Chlorella 1 unit 3. Collection and preservation of commonly used algae 2 units. 4. Extraction of pigments from algae 1 unit 5. Effect of temperature and pH on algal growth 1 unit 6. Monitoring growth of algae 1 unit 7. Production of Spirulina SCP 2 units 8. Production of biofuel from algae 2 units 9. Algae as substrate for solid state fermentation 1 unit 10. Study of Lichens 1 unit 11. Field visit / trip to collect algal specimens -algae herbaria (5) to be submitted. 2 units | |
Text Books And Reference Books: 1. Venkataraman L.V and E W. Becker. 1985. Biotechnology and Utilization of Algae – The Indian Experience. Dept. Science and Technology, New Delhi and Central Food Research Institute, Mysore, India. | |
Essential Reading / Recommended Reading 1. Kumar, H.D. (1999). Introductory Phycology. Affiliated East-West. Press Pvt. Ltd. Delhi. 2nd edition. | |
Evaluation Pattern CIA1- 20% performance CIA2-20% midsem CIA3-10% record ESE-50%
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BTY651B - ENVIRONMENTAL BIOTECHNOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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This paper deals with the fundamental protocols for detection and quantification of environmental pollution. Further it deals with observation of microbes important in environmental biotechnology. |
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Learning Outcome |
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CO1: To obtain the knowledge of the principles, techniques and current applications of biotechnology to environmental quality evaluation, monitoring, remediation of contaminated environments and energy production. CO2: Helps to monitor the organic pollutants in water. CO3: Provides hands on experience in various techniques for pollution biomonitoring. CO4: Provides knowledge on microbial staining and microscopy. CO5: Gives the idea and principle behind biogas formation. |
Unit-1 |
Teaching Hours:60 |
Experiment details
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1 Testing the portability of water by MPN 2 2 Determination of Biological Oxygen Demand of the water 1 3 Study on Vesicular Arbuscular Mycorrhiza 2 4 Isolation and Staining of Rhizobium 2 5 Production of Biogas 2 6 Determination of dissolved and suspended solids in water samples. 1 8 Microbial degradation of cellulose 2 9 Estimation of alkalinity in given water sample 1 10 Estimation of free carbon dioxide in water 1 11 Field visit 1 | |
Text Books And Reference Books: 1.T. R. Johnson and C. L. Case, Laboratory Experiments in Microbiology, 10th ed.: San Fransisc: Benjamin Cummings, 2012. | |
Essential Reading / Recommended Reading 1. 1. N. Kannan, Laboratory manual in General Microbiology, New Delhi: Panima Publishing Corporation, 2002. | |
Evaluation Pattern CIA1- 20% performance CIA2-20% midsem CIA3-10% record ESE-50% | |
BTY651C - DEVELOPMENTAL BIOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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This paper explains the basic practical concepts of developmental biology. The paper further helps to excel in the histology and microscopic techniques. |
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Learning Outcome |
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CO1: To escalate the basic concepts of developmental biology CO2: To recognize the significance of morphogenesis and organogenesis in animals CO3: To understand the significance of developmental aspects of living organism |
Unit-1 |
Teaching Hours:60 |
Experiment details
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1. Types of egg study in animal- Insect, Frog, Reptile, Bird, Human.Frog . 2. Study of developmental stages - whole mounts and sections through permanent slides cleavage stages, blastula, gastrula, neurula, tail bud stage, tadpole external and internal gill stages. Chick embryo-developmental stage. 3. Study of the different types of placenta- histological sections through permanent slides or photomicrographs. 4. Examination of gametes - frog/rat - sperm and ova through permanent slides or photomicrographs. | |
Text Books And Reference Books: 1. Kardong, K.V. (2005) Vertebrates’ Comparative Anatomy, Function and Evolution. IV Edition. McGraw-Hill Higher Education. | |
Essential Reading / Recommended Reading 1. Walter, H.E. and Sayles, L.P; Biology of Vertebrates, Khosla Publishing House | |
Evaluation Pattern CIA1- 20% performance CIA2-20% midsem CIA3-10% record ESE-50%
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BTY651D - HUMAN GENETICS LAB (2021 Batch) | |
Total Teaching Hours for Semester:60 |
No of Lecture Hours/Week:4 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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The paper imparts practical knowledge on practical aspects of human genetics and its applications. Moreover it deals with the importance of cytogenetics, different types of diagnostic methods and importance of human genetics in the medical diagnosis field. Molecular cytogenetics is also included to get better acquainted with microscopy techniques which are of great significance in this domain. |
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Learning Outcome |
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CO1: To provide the knowledge about the genetic influence and history of human genetics CO2: To understand the principles and mechanisms of the inheritance from one generation to
the next. CO3: To get updated with the knowledge on genetic diseases and its research approach. CO4: To understand the basics of gene expression studies. |
Unit-1 |
Teaching Hours:60 |
Experiment details
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1. Peripheral blood leukocyte culture for chromosomal studies-Demonstration 2. Sister chromatid exchange– demonstration 3. Micronucleus test-demonstration 4. Blood group identification 5. Identification of Barr body 6. Preparation of cells for COMET assay 7. Chromosomal disorders studies–Numerical, Structural. 8. Gene expression study of embryos (Zebrafish and C. Elegans) 9. Dissection and mounting of imaginal disc of Drosophilla Melanogaster 10. Case studies–learn disorders–Autism–Mental retardation 11. Visit to Genetic Diagnostic laboratory | |
Text Books And Reference Books: 1. Cummings, M. R. 2014. Human Heredity: Principles and Issues. West Publishing Company. 2. Analytical Biochemistry, 3rd Edition. Holme, D.J and Peck, H. 1998. Pearson Education Limited.1-501. 3. Snustad and Simmons, Principles of Genetics, 4th Edition, Wiley 2005. | |
Essential Reading / Recommended Reading 1. Amaldi, F., 1982. Practical Methods in Molecular Biology.: RF Schleif and PC Wensink. Springer-Verlag, New York, Heidelberg, Berlin. 2. Schleif, R.F. and Wensink, P.C., 2012. Practical methods in molecular biology. Springer Science & Business Media. | |
Evaluation Pattern CIA1- 10% CIA2-25% CIA3-10% Attendance- 5%
ESE-50% | |
BTY652E - RESEARCH PROJECT IN BIOTECHNOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:75 |
No of Lecture Hours/Week:5 |
Max Marks:150 |
Credits:5 |
Course Objectives/Course Description |
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This course is designed to impart knowledge in various aspects of formulating a research plan and its execution. Further the course describes the need for ethics in research and creates awareness on plagiarism. |
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Learning Outcome |
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CO1: To understand the techniques in biological science that will help the students in research. CO2: To familiarize with scientific writing of research paper. CO3: To learn basic concepts of research and to learn the common calculations in laboratory. CO4: To familiarize with the concepts of ethics in publication, plagiarism and indexing of research publication and databases. CO5: To familiarize with the basics of interdisciplinary research. |
Unit-1 |
Teaching Hours:75 |
Individual Student Project based on Biotechnology
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Individual Student Project based on Biotechnology discipline | |
Text Books And Reference Books: 1. Thomas, C.G., Research Methodology and Scientific Writing. Anne Books Pvt. Ltd. Bengaluru. 2017. 2. Dawson, C. Practical research methods. UBS Publishers, New Delhi. 2002. | |
Essential Reading / Recommended Reading 1. Stapleton, P., Yondeowei, A., Mukanyange, J., Houten, H. Scientific writing for agricultural research scientists – a training reference manual. West Africa Rice Development Association, Hong Kong, 1995. 2. Ruzin, S.E. Plant micro technique and microscopy. Oxford University Press, New York, U.S.A., 1999. | |
Evaluation Pattern CIA Evaluation - 50% Components of CIA
End Semester evaluation - 50 %
Components of ESE
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CHE631 - CHEMISTRY VI-MOLECULES OF LIFE (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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This course creates awareness about the various topics in biochemistry and the students are made to realize the role of the same in the life processes. The course emphasizes on the importance of leading a healthy life and the significance of a balanced diet which is essential to maintain nutritional requirements.
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Learning Outcome |
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CO1: Recall the major contributions in the development of biochemistry and significance of various biomolecules. CO2: Examine the structure and properties of water and biomolecules in living organisms. CO3: Predict the reactions related to carbohydrates, proteins, enzymes, nucleic acids and lipids. CO4: Explain the concepts of energy and nutrition in biosystems. |
Unit-1 |
Teaching Hours:2 |
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Introduction
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Development of biochemistry- elemental and biochemical composition of living organisms-role of water in biological systems. | ||||||||||||||||||||||||||||||||||||
Unit-2 |
Teaching Hours:4 |
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Carbohydrates
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Structure and biological importance of derived monosaccharides-amino sugars, sugar acids sugar phosphates-oligosaccharides-isomaltose, cellobiose, trehalose-polysaccharides-starch, glycogen and cellulose. Heteropolysaccharides-Occurrence and composition of Hyaluronic acid-chondroitin and its sulphates-dermatan sulphate-heparin-agar-agar. | ||||||||||||||||||||||||||||||||||||
Unit-3 |
Teaching Hours:8 |
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Amino Acids, Peptides and Proteins
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Classification of Amino Acids, Preparation of Amino Acids: Strecker synthesis with mechanism, Gabriel’s phthalimide synthesis. Zwitterion structure and Isoelectric point. Electrophoresis. Reactions of amino acids- esterification of –COOH group, acetylation of –NH2 group, complexation with Cu2+ ions, ninhydrin, Edman and Sanger’s reagents. Biological importance of proteins. Overview of Primary, Secondary, Tertiary and Quaternary Structure of proteins. Determination of Primary structure of Peptides by degradation using Edmann reagent and Sanger’s reagent. Synthesis of simple peptides (upto tripeptides) by N-protection (t-butyloxycarbonyl and phthaloyl) & C-activating groups. Use of DCC as a coupling agent in peptide bond formation. Merrifield solid-phase synthesis. Introduction to peptidomimetics.
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Unit-4 |
Teaching Hours:8 |
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Enzymes and correlation with drug action
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Classification-active site-Fischer and Koshland models-Enzyme kinetics- factors affecting rate of enzymatic reactions- Michaelis- Menten equation.Mechanism of enzyme action, factors affecting enzyme action, Coenzymes andcofactors and their role in biological reactions, Specificity of enzyme action (including stereospecificity), Enzyme inhibitors and their importance, phenomenonof inhibition (Competitive and Non- competitive inhibition). Theories of drug activity: Occupancy theory, rate theory and induced fit theory. Structure –activity relationships of drug molecules. | ||||||||||||||||||||||||||||||||||||
Unit-5 |
Teaching Hours:5 |
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Nucleic Acids
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Components of nucleic acids: Adenine, guanine, thymine and Cytosine (Structure only), other components of nucleic acids, Nucleosides and nucleotides (nomenclature), Structure of polynucleotides; Structure of DNA (Watson-Crick model) and RNA (types of RNA), Genetic Code, Biological roles of DNA and RNA: Replication, Transcription and Translation. | ||||||||||||||||||||||||||||||||||||
Unit-6 |
Teaching Hours:6 |
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Lipids
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Introduction to lipids, classification. Oils and fats: Common fatty acids present in oils and fats, Omega fatty acids, Trans fats, Hydrogenation, Saponification value, Iodine number. Biological importance of triglycerides, phospholipids, glycolipids, and steroids (cholesterol). Steroids: Classification - Cholesterol and sex hormones (structure and biological functions only) - Elementary idea of HDL and LDL – Cholesterol and heart attack – Anabolic steroids and their abuse (elementary idea only) –Doping in sports (a brief study). | ||||||||||||||||||||||||||||||||||||
Unit-7 |
Teaching Hours:8 |
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Concept of Energy in Biosystems
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Oxidation of foodstuff (organic molecules) as a source of energy for cells. Bioenergetics-ATP and other high energy molecules-energy coupling in biological reactions-stepwise process of biological oxidation-Mitochondrial electron transport chain-oxidative phosphorylation- Substrate level phosphorylation. Introduction to Metabolism (catabolism, anabolism). Conversion of food into energy. Outline of catabolic pathways of Carbohydrate-Glycolysis, Fermentation, Kreb’s Cycle. Overview of catabolic pathways of Fats and Proteins. | ||||||||||||||||||||||||||||||||||||
Unit-8 |
Teaching Hours:4 |
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Nutrition Biochemistry
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*Vitamins-definition-classification and deficiency manifestations of water soluble and fat soluble vitamins-coenzyme functions of B-complex vitamins. *Hormones. Definition- classification into amino acid derivatives, peptide and polypeptide`hormones and steroid hormones with examples and functions.
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Text Books And Reference Books: [1] J. L Jain. Fundamentals of Biochemistry. 5th ed. S.Chand & co, reprint 2013 ed. | ||||||||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1] A. Lehninger, David L. Nelson, and Michael M. Cox. Principles of Biochemistry. 8th ed.W. H. Freeman, 2012. [2] Conn, and Stumpf. Outlines of Biochemistry. 5thed. John Wiley & sons, inc, 2012. [3] P.C Champe and R. A. Harvey. Biochemistry.4th ed. Lippincott & co, 2011. [4] M. Devlin and Thomas. Textbook of Biochemistry. 7th ed. Wiley, 2011. [5] Voet, and Voet. Biochemistry. 6th ed. Wiley, 2012. | ||||||||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE641A - CHEMISTRY VIA-INDUSTRIAL MATERIALS AND ENVIRONMENT (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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This course is intended to impart a deep knowledge in the fields of Industrial and Environmental Chemistry. The course emphasizes on the applications of various industrial chemicals. It gives an insight on the importance of preserving our natural resources and conserving our environment.
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Learning Outcome |
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CO1: Explain the principles and concepts involved in the manufacture of industrial chemicals. CO2: Predict the hazards involved in storage, handling and transportation of industrial chemicals. CO3: Develops environment sensitivity and social responsibility to limit the pollution of water. CO4: Discuss the significance of renewable energy sources and environmental protection. |
Unit-1 |
Teaching Hours:4 |
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Industrial safety and safe practices
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Safety aspect related to transport, handling and storage flammable liquids and gases and toxic materials. Safety aspects at process development and design stage. | ||||||||||||||||||||||||||||||||||||
Unit-2 |
Teaching Hours:4 |
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Industrial gases and inorganic Chemicals
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Large scale production, uses, storage and hazards in handling the following gases: oxygen, nitrogen, hydrogen, acetylene. Manufacture, application, analysis and hazards in handling the following chemicals: hydrochloric acid, nitric acid, sulphuric acid, caustic soda, | ||||||||||||||||||||||||||||||||||||
Unit-3 |
Teaching Hours:3 |
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Processing of industrial materials
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Chemical bonding and properties of materials: Mechanical, Electrical, Magnetic, Optical, Thermal; Oxidation and degradation behavior of industrial materials. | ||||||||||||||||||||||||||||||||||||
Unit-4 |
Teaching Hours:3 |
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Quality control in chemical industry
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Quality Assurance: Elements of quality Assurance, Quality Management System Quality management concepts and principles: ISO 9001:2000 in chemical industries. TQM in Chemical Industry. Six Sigma Approach to Quality: Applying Six Sigma to chemical Industries. Accreditation of QC laboratories. | ||||||||||||||||||||||||||||||||||||
Unit-5 |
Teaching Hours:3 |
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Ecologically safe products and processes
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Mining and metal biotechnology: microbial transformation, accumulation and concentration of metals, metal leaching, extraction; exploitation of microbes in copper and uranium extraction, | ||||||||||||||||||||||||||||||||||||
Unit-6 |
Teaching Hours:3 |
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Environmental policy and agreements
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Environmental policy debate; International agreements; Montreal protocol 1987; Kyoto protocol 1997; Convention on Climate Change; carbon credit and carbon trading; clean development mechanism. | ||||||||||||||||||||||||||||||||||||
Unit-7 |
Teaching Hours:3 |
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Chemical toxicology
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Toxic chemicals in environment, ecological concept of toxicity, impact of toxic chemicals and biochemical effects of trace metals, pesticides, ozone and some other organic compounds (carcinogens) | ||||||||||||||||||||||||||||||||||||
Unit-8 |
Teaching Hours:4 |
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Corrosion
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Corrosion and its economic aspects, Intrinsic and extrinsic forms of corrosion. Corrosion Prevention Techniques: Metallic coatings, organic paints, varnishes, corrosion inhibitors, cathodic and anodic protection. Corrosion in industries with reference to thermal power plants, mining and petroleum industries, prevention of microbial corrosion. | ||||||||||||||||||||||||||||||||||||
Unit-9 |
Teaching Hours:5 |
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Atmospheric Chemistry and Air pollution
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Prelearning topics: Major regions of atmosphere. Composition of the atmosphere, Various ecosystems. Energy flow and eco system stability, Bioelements, cycles of carbon, nitrogen and sulphur. Chemical and photochemical reactions in the atmosphere. Air pollutants: classes, sources, particle size and chemical nature; Atmospheric turbidity. $ Pollution by SO2, CO2, CO, NOx, H2S and other foul smelling gases. $Methods of estimation of CO, NOx, SOx and control procedures. Acid rain, Effects of air pollution on living organisms and vegetation. Urban heat intensity, Adiabatic lapse rate, temperature inversion. | ||||||||||||||||||||||||||||||||||||
Unit-10 |
Teaching Hours:5 |
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Water pollution
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Prelearning topics: Hydrological cycle, water resources, aquatic ecosystems, Sources and nature of water pollutants, Techniques for measuring water pollution. Water quality parameters for domestic water. #Industrial effluents from the following industries and their treatment: electroplating, petroleum and petrochemicals, agro, fertilizer, food industry. #Industrial waste management, incineration of waste. | ||||||||||||||||||||||||||||||||||||
Unit-11 |
Teaching Hours:5 |
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Energy and environment
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Prelearning topics: Sources of energy: Coal, petrol and natural gas. Nuclear Fusion / Fission Renewable energy sources: Solar, geothermal, tidal and hydel, biomass and biofuel. Photovoltaic cells and Hydrogen fuel cell, Nuclear Pollution: Disposal of nuclear waste, nuclear disaster and its management. | ||||||||||||||||||||||||||||||||||||
Unit-12 |
Teaching Hours:3 |
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Biocatalysis
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Introduction to biocatalysis: Importance in *Green Chemistry and Chemical Industry. | ||||||||||||||||||||||||||||||||||||
Text Books And Reference Books: [1] E. Stocchi: Industrial Chemistry, Vol-I, Ellis Horwood Ltd. UK (2008). [2] A. K. De, Environmental Chemistry: New Age International Pvt., Ltd, New Delhi (2012). | ||||||||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1] R.M. Felder, R.W. Rousseau: Elementary Principles of Chemical Processes, Wiley Publishers, New Delhi (2008). [2] J. A. Kent: Riegel’s Handbook of Industrial Chemistry, CBS Publishers, NewDelhi (2013) [3] S. S. Dara: A Textbook of Engineering Chemistry, S. Chand & Company Ltd. New Delhi (2014). [4] S. M. Khopkar, Environmental Pollution Analysis: Wiley Eastern Ltd, New Delhi (2013). [5] S.E. Manhattan, Environmental Chemistry, CRC Press (2005). [6]G.T. Miller, Environmental Science 11th edition. Brooks/ Cole (2006). [7] A. Mishra, Environmental Studies. Selective and Scientific Books, New Delhi (2005).
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Evaluation Pattern
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CHE641B - CHEMISTRY VIB-CHEMISTRY OF NATURAL PRODUCTS AND HETEROCYCLIC COMPOUNDS (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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This course deals with various topics of natural products chemistry and lays the foundation for the study of heterocyclic compounds. |
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Learning Outcome |
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CO1: Predict the structure of terpenoids, alkaloids, steroids, natural drugs, natural coloring agents and heterocyclic compounds. CO2: Utilise the appropriate reactions in structural studies of terpenoids, alkaloids, steroids, natural drugs, natural coloring agents and heterocyclic compounds. CO3: Discuss the chemistry and significance of natural products and heterocyclic compounds. |
Unit-1 |
Teaching Hours:5 |
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Terpenes
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Section A: Natural Products Chemistry Prelearning: Introduction and scope of natural products chemistry. Primary and secondary plant metabolites. Different classes of natural products.
Terpenes: Occurrence, classification, Isoprene rules, cyclization reactions, gem-dialkyl rule. Physico-chemical methods in structural studies (UV, IR, NMR, Mass). Structural elucidation and synthesis of citral, structures and uses of Menthol, Camphor, Limonene and beta-Carotene | ||||||||||||||||||||||||||||||||||||
Unit-2 |
Teaching Hours:6 |
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Alkaloids
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Occurrence, classification and isolation of alkaloids, General characteristics of alkaloids. Structural elucidation of alkaloids; molecular formula, functional group analysis; nature of oxygen atom (alcoholic, hydroxyl, phenolic, methoxy, carboxylic group). Physico-chemical methods (UV, IR, NMR, Mass). Structure and synthesis of nicotine. Medicinal uses of Quinine, Morphine, Strychnine, Cocaine, Atropine, Reserpine and Nicotine. Colour reaction tests (Erdmann, Mayer, Hager reagents). | ||||||||||||||||||||||||||||||||||||
Unit-3 |
Teaching Hours:5 |
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Naturally occurring Drugs
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Drugs-chemotherapy- classification of drugs- Stimulants (caffeine, nicotine, cocaine)-Depressants (alcohol, heroin) – Hallucinogens (magic mushrooms, marijuana)- psychoactive substances (morning glory, mescaline) pain killers (ginger, turmeric, Capsaicin), antimalarials (quinine, artemisinin) anti-cancer (taxol, captothecin, vinblastine, vincristine), antidiabetic (Eugenia jambolana, green tea) immunostimulants (tinosporacordifolia), antibiotic (garlic).
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Unit-4 |
Teaching Hours:5 |
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Steroids
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Occurrence. Nomenclature, basic skeleton, Diels hydrocarbon, Stereochemistry of steroids Sex hormones and corticosteroids. Structure of cholesterol and ergosterol (No synthesis). Conversion of cholesterol to progesterone and Testosterone. Liebermann-Burchard reaction. | ||||||||||||||||||||||||||||||||||||
Unit-5 |
Teaching Hours:5 |
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Natural Pigments
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Natural colouring matter, general classification, isolation of anthocyanins (cyanine), flavones (chryosin) and flavanol (Quercetin), Porphyrin; structure, spectral properties and applications (for all). Colour tests for anthocyanins, Flavones, Flavonols (colour with aq. NaOH, Conc.H2SO4 and Mg/HCl).
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Unit-6 |
Teaching Hours:5 |
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Introduction to heterocyclic chemistry
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Section B: Heterocyclic compounds Prelearning: General introduction of heterocyclic compounds and their importance. Introduction to heterocyclic chemistry: Introduction, classification, nomenclature (monocyclic and polycyclic), importance of heterocyclic compounds. | ||||||||||||||||||||||||||||||||||||
Unit-7 |
Teaching Hours:4 |
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Non-aromatic heterocyclic compounds
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Introduction to three and four membered heterocyclic compounds. Synthesis, properties and uses of Azirines, Aziridines, Oxiranes, Thiiranes, Azetidines, Oxetanes and Thietanes. | ||||||||||||||||||||||||||||||||||||
Unit-8 |
Teaching Hours:10 |
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Aromatic heterocyclic compounds
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5-membered heterocycles with two hetero atoms (pyrazole, imidazole, oxazole, thiazole): Structure, properties, synthesis (1 method each) and reactions. Benzo-fused heterocycles: Structure, reactivity, synthesis (1 method each) and reactions of benzofuran, benzothiophene, benzoxazoles and benzimidazole, quinoline, isoquinoline and indolee. | ||||||||||||||||||||||||||||||||||||
Text Books And Reference Books: [1] Ashutosh, K., Chemistry of natural products Vol. I, CBS Publications & Distributors 1st Edition 2010. [2] Ashutosh, K., Chemistry of natural products Vol. II, CBS Publications & Distributors 1st Edition 2012. [3] Bhat, S., Nagasampagi B., Sivakumar M., Chemistry of natural productsNarosa Publishing House New Delhi 2005. [4] Ahluwalia, V. K. Heterocyclic Chemistry, Narosa Publishing House New Delhi, 2016. | ||||||||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1] Katritzky, A. R. Handbook of Heterocyclic Chemistry, 3rd addition, 2010. [2] Agrawal, O. P. Chemistry of Natural products vol I & II, 41st addition, 2014. | ||||||||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE651 - CHEMISTRY PRACTICALS VI-MOLECULES OF LIFE (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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This course introduces different biochemical techniques for the determination and analysis of various biomolecules like carbohydrates, amino acids etc.It also emphasizes the importance of organized and systematic approach in carrying out experiments. |
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Learning Outcome |
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CO1: Understand the action of salivary amylase of starch. CO2: Analyze amino acids by paper chromatography. CO3: Estimate absorbance of biomolecules by colorimetric method. CO4: Determine iodine value and saponification value of oils. |
Unit-1 |
Teaching Hours:30 |
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Chemistry Practicals VI - Molecules of Life
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1.Separation of amino acids by paper chromatography. 2.To determine the concentration of glycine solution by formylation method. 3.Estimation of creatinine in urine by Jaffe’s method. 4.Estimation of inorganic phosphate in food samples by Fiske –Subbarow method. 5.Estimation of total reducing sugars in honey by DNS (Dinitrosalicyclic acid) method. 6.Estimation of protein by biuret method and Lowry’s method. 7.Study of titration curve of glycine. 8.Determination of the concentration of glycine solution by formylation method. 9.Action of salivary amylase on starch. 10.Effect of temperature on the action of salivary amylase on starch. 11.To determine the saponification value of an oil/fat. 12.To determine the iodine value of an oil/fat. 13.Differentiate between a reducing/ non reducing sugar. 14.Extraction of DNA from onion/cauliflower.
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Text Books And Reference Books: [1] David T Plummer, An Introduction to Practical Biochemistry, 1st edition 1987, Tata McGraw-Hill publishing company reprint 2008. [2] B.S. Furniss, A.J. Hannaford, V. Rogers, P.W.G. Smith and A.R.Tatchell, Vogel’s Textbook of Practical Organic Chemistry, 5th edition 1989 ELBS. | |||||||||||||||||||||||||||||||
Essential Reading / Recommended Reading [1] J. Jayaraman, Laboratory Manual in Biochemistry, Wiley Eastern Ltd., 2011. [2] V. K. Ahluwalia and R. Aggarwal, Comprehensive Practical Organic Chemistry, 1st edition 2001, Universities Press. | |||||||||||||||||||||||||||||||
Evaluation Pattern
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CHE651A - CHEMISTRY PRACTICALS VIA-INDUSTRIAL MATERIALS AND ENVIRONMENT (2021 Batch) | |||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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This practical |
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Learning Outcome |
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CO1: Estimate phosphoric acid in superphosphate fertilizer. CO2: Analyze different types of alloys. |
Unit-1 |
Teaching Hours:30 |
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Practicals
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Text Books And Reference Books:
[1] E. Stocchi: Industrial Chemistry, Vol-I, Ellis Horwood Ltd. UK (2008).
[2] A. K. De, Environmental Chemistry: New Age International Pvt. Ltd, New Delhi (2012).
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Essential Reading / Recommended Reading
[1] R.M. Felder, R.W. Rousseau: Elementary Principles of Chemical Processes, Wiley Publishers, New Delhi. J. A. Kent: Riegel’s Handbook of Industrial Chemistry, CBS Publishers, New Delhi (2008).
[2] S. S. Dara: A Textbook of Engineering Chemistry, S. Chand & Company Ltd. New Delhi (2014).
[3] S. M. Khopkar, Environmental Pollution Analysis: Wiley Eastern Ltd, New Delhi (2013).
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Evaluation Pattern
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CHE651B - CHEMISTRY PRACTICALS VIB-CHEMISTRY OF NATURAL PRODUCTS AND ORGANIC ANALYSIS (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
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Course Objectives/Course Description |
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This course deals with the extraction and estimation of natural products chemistry and lays the foundation for the analysis of organic compounds. |
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Learning Outcome |
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CO1: Explain the theory of extraction of Natural products. CO2: Estimate Natural products and Nucleic acids by different methods. |
Unit-1 |
Teaching Hours:30 |
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Chemistry Practicals VIB - Natural Products and Organic Analysis
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1. Section A: Natural Products Chemistry#
1. Extraction of natural products by Soxhlet extraction method. 2. Standardization of green tea extract. 3. Isolation of alkaloids. 4. Isolation of natural products by column chromatography 5. Isolation of natural products by preparative TLC. 6. Isolation of Caffeine. 7. Estimation of Caffeine by titration method. 8. Estimation of beta carotene by spectroscopic method. 9. Estimation of polyphenols using Folin–Ciocalteu reagent) 10. Estimation of iron in mustard seed / maize. 11. Estimation of DNA using Diphenyl amine method. 12. Estimation of RNA by Orcinol method.
Section B: Organic compound analysis: Determination of melting and boiling points. Detection of extra elements (N, S, Cl, Br, I) in organic compounds (containing up to two extra elements). Systematic Qualitative Organic Analysis of Organic Compounds possessing monofunctional groups (-COOH, phenolic, aldehydic, ketonic, amide, nitro, amines) Preparation of one derivative. | ||||||||||||||||||||||||||||||||||||
Text Books And Reference Books: [1] Siddiqui, A., Siddiqui, S. Natural Products Chemistry Practical Manual: For Science and Pharmacy Courses, CBS Publisher, 2008.
[2] Pavia, I. D. L., Lampman, G. M. and Kriz, G. S. Introduction to Organic Laboratory Techniques, W.B. Saunders Company, 1976.
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Essential Reading / Recommended Reading [1] Svehla, G. Vogel’s Qualitative Inorganic Analysis, Pearson Education, 2012 | ||||||||||||||||||||||||||||||||||||
Evaluation Pattern Examination pattern for Practical
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CHE681 - DISSERTATION IN CHEMISTRY (2021 Batch) | ||||||||||||||||||||||||||||||||||||
Total Teaching Hours for Semester:105 |
No of Lecture Hours/Week:7 |
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Max Marks:100 |
Credits:5 |
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Course Objectives/Course Description |
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This project-based course is intended to provide the students an opportunity to choose and learn more about any topic based on their interest, from Chemistry. This will act as a springboard for pursuing research. This will also enhance teamwork, planning, time management and effective use of resources. |
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Learning Outcome |
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CO1: Choose various topics on which they can conduct innovative experiments. CO2: Demonstrate teamwork, time management and initiative.
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Unit-1 |
Teaching Hours:105 |
Course Content
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The basics of scientific writing, experimental design, project reporting and presentation. Aims and means of assessing the feasibility of projects. Techniques in data collection, collation and analysis. Investigation and written report on an approved topic.
Evaluation parameters for the dissertation Review of literature Novelty of the research method Scientific quality Results and discussion Progress presentation
Dissertation with poster followed by viva | |
Text Books And Reference Books: National and International journals in chemistry | |
Essential Reading / Recommended Reading National and International journals in chemistry | |
Evaluation Pattern CIA 1: continuous assessment and Proposal presentation 30 marks CIA 2: continuous assessment and Progress presentation 30 marks CIA 3: continuous assessment and Progress presentation 30 marks Attendance: 10 marks
ESE:
Dissertation 20 marks Poster 5 marks
Presentation followed by Viva 25 marks | |
ZOO631 - IMMUNOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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This paper will examine cellular and molecular aspects of the immune system. Topics include immunogenetics and molecular structure of immunoglobulins, T cell & B cell development, MHC antigens, modern vaccines, functions and dysfunctions of the components of the immune system; applications of immunological technologies in modern scientific research and development. These topics will help the students to absorb most of the fundamentals in immunology and this can benefit in understanding the advanced topics in this area. |
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Learning Outcome |
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C01: : Students understand the various immune cells, molecules and pathways involved in induction and regulation of innate and adaptive response. CO2: Students learn immune techniques involved in detection and quantification of antigens and antibodies. CO3: To demonstrate the basic knowledge of immunological processes at a cellular and molecular level CO4: To define central immunological principles and concepts CO5: To understand the mechanism of humoral and cell mediated immunity |
Unit-1 |
Teaching Hours:7 |
Introduction to Immunology
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History of Immunology, Innate Immune Immunity and its role in protection, physiological barriers, mechanical barriers, chemical barriers. Adaptive Immunity – naturally and artificially acquired immunity/ | |
Unit-2 |
Teaching Hours:6 |
Cells and Organs of the Immune System
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Humoral and cellular component of the Immune system, Role of different blood cells (B cell, T cell, Natural killer cells, Macrophages, neutrophils, Eosinophils, Basophils) in immune system, primary lymphoid organs- thymus, nude mice, bone marrow, secondary lymphoid organs- spleen, lymph node, MALT. | |
Unit-3 |
Teaching Hours:7 |
Antigens and Antibodies
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Antigenicity and Immunogenicity, epitopes of B Cells and T Cells, Haptens, antigenic drift and shift, Elucidation of antibody structure, variable regions, constant regions, Heavy chains light regions, classification and functions of antibodies (IgA, IgG, IgM, IgD, I,gE). Functions of different antibodies, generation of antibody diversity, Monoclonal antibodies-hybridoma technology. | |
Unit-4 |
Teaching Hours:7 |
Antigen-Antibody Interaction
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Affinity and avidity, precipitation reactions- radial immunodiffusion, double immunodiffusion, Agglutination- haemagglutination, agglutination inhibition, rocket electrophoresis, radioimmunoassay, ELISA- indirect, sandwich, competitive ELISA, immunofluorescent techniques. | |
Unit-5 |
Teaching Hours:6 |
Antigen Processing and Presentation
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MHC molecules and organization of their genes, Structure and function of MHC types. Antigen processing, role of MHC in antigen presentation . | |
Unit-6 |
Teaching Hours:4 |
Teaching Hours:
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History and Definition of complement proteins, functions of complement system, Classical pathway, Alternate pathway, Mannan binding lectin pathway | |
Unit-7 |
Teaching Hours:3 |
Hypersensitivity
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Definition of hypersensitivity reactions, Coomb’s classification of HS reactions- Immediate reactions-Type I, II, III. Delayed HS reactions-type IV, Immunity in graft rejections - foeto-maternal tolerance. | |
Unit-8 |
Teaching Hours:5 |
Vaccines and Immunization
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History of vaccination, advanced vaccination techniques, Passive and Active immunization. Types of Vaccines-Live, attenuated vaccines, Inactivated vaccines, Subunit vaccines, Toxoid vaccines, Conjugate vaccines, DNA vaccines, Recombinant vector vaccines. | |
Text Books And Reference Books: 1. Company Ltd, 2002 2. G. P. Talwar, Hand Book of Practical and Clinical Immunology, 2nd ed. Vol. II, New Delhi: CBS Publishers and Distributors, 2009. 3. Kindt, T. J., Goldsby, R.A., Osborne, B. A. and Kuby, J (2006). Immunology, VI Edition. W.H. Freeman and Company. | |
Essential Reading / Recommended Reading 1. David, M., Jonathan, B., David, R. B. and Ivan R. (2006). Immunology, VII Edition,Mosby, Elsevier Publication. 2. Abbas, K. Abul and Lechtman H. Andrew (2003.) Cellular and MolecularImmunology. V Edition. Saunders Publication | |
Evaluation Pattern CIAI(Written Assignment/Moodle Assignment/chart making)-20 Marks CIAII(Midsemester exams)-50 Marks CIAIII(Presentation/Model Making/Quiz/Poster presentation/Service learning)-20 Marks Attendance- 10 Marks End semester Exam- 100 Marks | |
ZOO641A - APPLIED ZOOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
Max Marks:100 |
Credits:3 |
Course Objectives/Course Description |
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Students are expected to have a minimum knowledge on various applied aspects of zoological studies in health sciences as well as economic aspects to improve the individual and society health along with nature. |
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Learning Outcome |
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C01: To acquire and apply foundational knowledge concepts & theories in Biology. CO2: Major focuses on the practical use of biological information within health sciences & commercial farming. CO3: To understand concepts of epidemiology, Rickettsiae and Spirochaetes, CO4: To understand the economic importance of insects, animal husbandry CO5: To understand the insects and vectors born diseases and their control mechanisms |
Unit-1 |
Teaching Hours:3 |
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Introduction to Host-parasite Relationship
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Host, Definitive host, Intermediate host, Parasitism, Symbiosis, Commensalism, Reservoir, Zoonosis | ||
Unit-2 |
Teaching Hours:7 |
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Epidemiology of Diseases
|
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Transmission, Prevention and control of diseases: Tuberculosis, Typhoid | ||
Unit-3 |
Teaching Hours:6 |
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Rickettsiae and Spirochaetes
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Brief account of Rickettsia prowazekii, Borrelia recurrentis and Treponema pallidum | ||
Unit-4 |
Teaching Hours:8 |
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Zoonosis
|
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Life cycle, Epidemiology, Transmission and Prophylaxis of Zoonotic Diseases (Rabies, Ebola and Nipah). | ||
Unit-5 |
Teaching Hours:8 |
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Insects of Economic Importance
|
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Biology, Control and damage caused by Helicoverpa armigera, Pyrillaperpusilla and Papilio demoleus, Calloso bruchus chinensis, Sitophilus oryzae and Tribolium castaneum. Insects of Medical Importance: Medical importance and control of Pediculus humanus corporis, Anopheles, Culex, Aedes, Xenopsylla cheopis | ||
Unit-6 |
Teaching Hours:5 |
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Animal Husbandry
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Preservation and artificial insemination in cattle; Induction of early puberty and synchronization of estrus in cattle. Poultry Farming: Principles of poultry breeding, Management of breeding stock and broilers, Processing and preservation of eggs. Fish Technology: Genetic improvements in aquaculture industry; Induced breeding and transportation of fish seed. | ||
Unit-7 |
Teaching Hours:8 |
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Insects as Vectors
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General Features of Insects, Morphological features, Mouth parts w.r.t. feeding habits. Introduction of Carrier and Vectors (mechanical and biological vector), Reservoirs, Host-vector relationship, Vectorial capacity, Adaptations as vectors, Host Specificity. Classification of insects up to orders, detailed features of orders with insects as vectors – Diptera, Siphonaptera, Siphunculata, Hemiptera. | ||
Text Books And Reference Books: 1. Park, K. (2007). Preventive and Social Medicine. XVI Edition. B.B Publishers. 2. Arora, D. R and Arora, B. (2001). Medical Parasitology. II Edition. CBS Publications and Distributors. ∙ Kumar and Corton. Pathological Basis of Diseases | ||
Essential Reading / Recommended Reading 1. Hafez, E. S. E. (1962). Reproduction in Farm Animals. Lea &Fabiger Publisher | ||
Evaluation Pattern
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ZOO641B - MEDICAL DIAGNOSTICS AND FORENSIC BIOLOGY (2021 Batch) | ||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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Students of different branches of Life Sciences are expected to have a minimum knowledge on various diagnostic techniques employed in health sciences. The modules on Medical Diagnostics is well tailored to cater to that need. Forensic Science is also an emerging field which makes use of latest analytical techniques in biology and chemistry. Forensic biologists examine blood and other bodily fluids, hair, bones, insects and plant and animal remains to help identify victims and support criminal investigations. |
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Learning Outcome |
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CO1: To have a minimum knowledge on various diagnostic techniques employed in health sciences CO2: To understand the theory behind various diagnostic techniques and also how to interpret the results. CO3: To understand modules on cancer diagnostic techniques are the need of the hour because of its extensive use in cancer screening CO4: To understand the basic concepts of crime, criminology, victimology CO5: Analyse various crime scenario and apply it into a case study |
Unit-1 |
Teaching Hours:2 |
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Scope of Medical diagnostics
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History of medical diagnostic techniques, current technologies utilized, top industries in the field - worldwide and in India, Good Laboratory Practices, role of FDA and DCGI: | |||
Unit-2 |
Teaching Hours:8 |
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Serological tests:
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Blood collection and serum isolation, separation of blood components, - principle, methods, storage, composition and uses of serum, Principle and technique of diagnostic tests for Typhoid, Gonorrhoea, tuberculosis, Cancer, AIDS, Viral diseases etc. Titre values and interpretations, prenatal tests, Interpretation of whole blood tests, different types of anemia, stem cell collection and uses, cord blood banking | |||
Unit-3 |
Teaching Hours:8 |
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Molecular Diagnostics
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identification of AIDS/Hepatitis/Cancer, Imaging Assays in Cancer diagnostics- PET scan and MRI Scan. Applications of genomic, proteomic and metabolomic data in disease diagnostics (two examples each) | |||
Unit-4 |
Teaching Hours:5 |
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Personalized medicine
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Need for personalized medicine, applications in cancer therapy, pharmacogenomics, biomarkers in cancer diagnostics, ER, PR and Her biomarker analysis in breast cancer – tissue sample collection, processing, analysis procedures for presence of biomarkers, Applications of immunoassays. | |||
Unit-5 |
Teaching Hours:4 |
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Scope of Forensic Sciences
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History & Development and branches of forensic science, forensic labs and training centres in India, CFSL, FSL, GEQD, NICFS, NCRB (Maintenance of crime records), NPA, Mobile Forensic Science Laboratory, duties of forensic scientists. Code of conduct for forensic scientists. Qualifications of forensic scientists, Data depiction. Report writing. | |||
Unit-6 |
Teaching Hours:4 |
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Fingerprints and hair sample analysis
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sics of Fingerprinting- Introduction and history, biological basis of fingerprints, formation of ridges, types of fingerprints, fingerprint patterns, Automated Fingerprint Identification Significance of hair evidence. Transfer, persistence and recovery of hair evidence. Structure of human hair. Comparison of hair samples (human and animal hair). Morphology and biochemistry of human hair | |||
Unit-7 |
Teaching Hours:7 |
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DNA Fingerprinting Techniques
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Significance of DNA in forensic science, extraction of DNA for analysis from different sample specimens like blood, semen, hair etc. Methods to quantify DNA, different methods of DNA typing- based on STR, Based on Y chromosome analysis and based on Mitochondrial DNA analysis, interpretation of results | |||
Unit-8 |
Teaching Hours:7 |
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Toxicology Studies
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Classification and mode of action of poisons, signs and symptoms of common poisoning and their antidotes, collection and preservation of viscera, blood and urine for various poison cases. Identification of biocides and metal salts in body fluids. Metabolism and excretion of poisons. Animal poisons like Snake venom- properties and mode of action. Carbon monoxide poisoning, poisonous fruits, fungi, algae and mushrooms, estimation of ethyl alcohol and methyl alcohol in blood and urine. | |||
Text Books And Reference Books: 1. Rifai. N, Horvath A. R and Witwer C T, Tietz Textbook of Clinical Chemistry and Molecular Diagnostics, 6th Ed. Elsevier 2. Nanda, B.B. and Tewari, R.K; Forensic Science in India- A vision for the twenty first century, Select Publisher, New Delhi (2001) 3. James, S.H. and Nordby, J. J.; Forensic Science; An Introduction to Scientific and Investigative Techniques, CRC Press, USA (2003) | |||
Essential Reading / Recommended Reading 1. Saperstein: Criminalities – An Introduction to Forensic Science, Prentice Hall Inc. USA (1995) 2. C. G. G. Aitken and D. A. Stoney; The use of statistics in Forensic Science, Ellis Harwood Limited, England (1991) 3. Bridges BC; Criminal Investigation, Practical Finger Printing, Thumb Impressions, Hand writing Expert testimony opinion Evidence, University Book Agency, Allahabad (2000) | |||
Evaluation Pattern
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ZOO641C - SERICULTURE (2021 Batch) | |||
Total Teaching Hours for Semester:45 |
No of Lecture Hours/Week:3 |
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Max Marks:100 |
Credits:3 |
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Course Objectives/Course Description |
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In Sericulture, the basic requirement lies on systematic quality-based coaching and training in advanced Science and Technologies/innovations. The main objective of this course is to create a basic knowledge and provide improved human resource to Silk industry and expected to bring direct benefits to rural development and sericulture farming community. |
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Learning Outcome |
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C01: To provide scientific knowledge about mulberry cultivation silkworm rearing techniques CO2: To make aware about Soil to Silk concept, Sericulture Extension and innovative technology /techniques. CO3: To create awareness about Soil to Silk concept, Sericulture Extension and innovative technology /techniques etc CO4: To develop entrepreneurship skills among the students CO5: Competent to transfer the knowledge and technical skills to the Seri-farmers. |
Unit-1 |
Teaching Hours:8 |
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Introduction
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Sericulture: Definition, history and present status; Silk route. Types of silkworms (Tasar, Muga, and Eri) and their food plants, Distribution and Races Exotic and indigenous races, Mulberry and non-mulberry Sericulture: | ||
Unit-2 |
Teaching Hours:5 |
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Biology of Silkworm
|
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Morphology and Life cycle of Bombyx mori, Structure of silk gland and secretion of silk | ||
Unit-3 |
Teaching Hours:20 |
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Rearing of Silkworms
|
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Mulberry cultivation in India, Selection of land and mulberry variety and establishment of mulberry garden, Different methods of planting –Organic and inorganic manure application, Rearing house and rearing appliances- Egg transportation and incubation –Egg handling – Hatching –Brushing –Silk worm rearing techniques Disinfectants: Formalin, bleaching powder, Resham Keet Oushadh (RKO) Silkworm rearing technology: Early age and Late age rearing Types of mountages, Spinning, harvesting and storage of cocoons Reeling methods: Reeling and Re-reeling –Silk examination, cleaning, lacing, bookmaking and grading of silk. Field visit to silk worm rearing centre and reeling industry | ||
Unit-4 |
Teaching Hours:5 |
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Pests and Diseases
|
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Pests of silkworm: Uzi fly, dermestid beetles and vertebrates Pathogenesis of silkworm diseases: Protozoan, viral, fungal and bacterial Control and prevention of pests and diseases | ||
Unit-5 |
Teaching Hours:2 |
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Entrepreneurship in Sericulture
|
||
Prospectus of Sericulture in India: Sericulture industry in different states, employment, potential in mulberry and non-mulberry sericulture. Utilization of sericulture by-products (e.g. as cattle feed). Visit to various sericulture centres. | ||
Text Books And Reference Books: 1. Text Book of Tropical Sericulture. Publ., Japan Overseas Corporation volunteers – 1975. 2. Silkworm Genetics illustrated by Tada Yokoyama. | ||
Essential Reading / Recommended Reading 1. The natures and property of soils (9th edition) N. C. Brady (Mac Millan pub. Co. Inc., New York. 2. Studies on soils of India, S. V. Govind Rajan and H. G. Gopala Rao (1970), Vikas Publ. House Pvt. Ltd., New Delhi. | ||
Evaluation Pattern
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ZOO651 - IMMUNOLOGY LAB (2021 Batch) | ||
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
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Max Marks:50 |
Credits:2 |
|
Course Objectives/Course Description |
||
This paper will examine cellular and molecular aspects of the immune system. Topics include immunogenetics and molecular structure of immunoglobulins, T cell & B cell development, MHC antigens, modern vaccines, functions and dysfunctions of the components of the immune system; applications of immunological technologies in modern scientific research and development. These topics will help the students to absorb most of the fundamentals in immunology and this can benefit in understanding the advanced topics in this area. |
||
Learning Outcome |
||
C01: Students understand the various immune cells, molecules and pathways involved in induction and regulation of innate and adaptive response. CO2: Develop an ability to summarize, integrate and organize information and relate it to disease outcomes. CO3: Use scientific reasoning to evaluate the potential for current research and new discoveries to improve our understanding of immunology and its relevance to human health and to our society. |
Unit-1 |
Teaching Hours:30 |
IMMUNOLOGY LAB
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|
1. Determination of Blood group 2. Total count of RBC & WBC using Haemocytometer 3. Differential Count of WBC 4. Widal test 5. VDRL Test 6. Dot ELISA 7. Ouchterlony Double Diffusion 8. Radial Immunodiffusion 9. Immunoblotting technique 10. Separation of serum from blood & precipitation of Immunoglobulin 11. Estimation of the Immunoglobulin by Bradford protein assay | |
Text Books And Reference Books: 1. F. C. Hay, M. R. Olwyn, P. N. Westwood and N. L. Hudson, Practical Immunology, 4th ed. UK: Blackwell Company Ltd, 2002 | |
Essential Reading / Recommended Reading 1. David, M., Jonathan, B., David, R. B. and Ivan R. (2006). Immunology, VII Edition,Mosby, Elsevier Publication. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
ZOO651A - APPLIED ZOOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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Students are expected to have a minimum knowledge on various applied aspects of zoological studies in health sciences as well as economic aspects to improve the individual and society health along with nature. |
|
Learning Outcome |
|
CO1: To acquire and apply foundational knowledge concepts & theories in Biology. CO2: Major focuses on the practical use of biological information within health sciences & commercial farming. CO3: To understand concepts of epidemiology, Rickettsiae and Spirochaetes, insects of economic importance, animal husbandry, |
Unit-1 |
Teaching Hours:30 |
Applied Zoology
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1. Study of Plasmodium vivax, Entamoeba histolytica, Trypanosoma gambians, Ancylostoma duodenale and Wuchereria bancrofti and their life stages through permanent slides/photomicrographs or specimens. 2. Study of arthropod vectors associated with human diseases: Pediculus, Culex, Anopheles, Aedes and Xenopsylla. 3. Study of insect damage to different plant parts/stored grains through damaged products/photographs 4. Identifying feature and economic importance of Helicoverpa (Heliothis) armigera, Papilio demoleus, Pyrillaper pusilla, Calloso bruchus chinensis, Sitophilus oryzae and Tribolium castaneum. 5. Visit to poultry farm or animal breeding centre. Submission of visit report 6. Maintenance of freshwater aquarium 7. Project related to applied aspects | |
Text Books And Reference Books: 1. Park, K. (2007). Preventive and Social Medicine. XVI Edition. B.B Publishers. | |
Essential Reading / Recommended Reading Dennis, H. (2009). Agricultural Entomology. Timber Press | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
ZOO651B - MEDICAL DIAGNOSTICS AND FORENSIC BIOLOGY LAB (2021 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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Students of different branches of Life Sciences are expected to have a minimum knowledge on various diagnostic techniques employed in health sciences. The modules on Medical Diagnostics is well tailored to cater to that need. Forensic Science is also an emerging field which makes use of latest analytical techniques in biology and chemistry. Forensic biologists examine blood and other bodily fluids, hair, bones, insects and plant and animal remains to help identify victims and support criminal investigations. Using technology in the lab and in the field, forensic biologists collect and analyse biological evidence found on clothing, weapons and other surfaces to determine the time and cause of death. The modules on Forensic Biology are tailored to meet these demands. |
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Learning Outcome |
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CO1: To get exposure to the various diagnostic techniques CO2: To diagnose the diseases based on the defects CO3: To understand a crime scene, collect and interpret the forensic data and expose them to the modern methods of forensic investigations. |
Unit-1 |
Teaching Hours:30 |
Medical Diagnostics And Forensic Biology Lab
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1. Estimation of Serum cholesterol 2. Estimation of Serum Creatinine by Jaffe’s method 3. Estimation of Haemoglobin 4. Analysis of MIC of antibacterial chemical molecules 5. Analysis of MBC of antibacterial chemical molecules 6. ELISA test for AIDS 7. Diagnostic test for Typhoid 8. Biomarker analysis of cancerous tissue samples 9. Analysis of blood stains and blood grouping 10. Lifting and identification of fingerprints 11. Identification of human and animal hair 12. Identification of natural and artificial fibres 13. Estimation of methanol in blood sample 14. Estimation of pesticide residue in blood 15. Visit to a forensic lab - 2 units | |
Text Books And Reference Books: 1. Rifai. N, Horvath A. R and Witwer C T, Tietz Textbook of Clinical Chemistry and Molecular Diagnostics, 6th Ed. Elsevier 2. Nanda, B.B. and Tewari, R.K; Forensic Science in India- A vision for the twenty first century, Select Publisher, New Delhi (2001) 3. James, S.H. and Nordby, J. J.; Forensic Science; An Introduction to Scientific and Investigative Techniques, CRC Press, USA (2003) | |
Essential Reading / Recommended Reading 1. Saperstein: Criminalities – An Introduction to Forensic Science, Prentice Hall Inc. USA (1995) 2. C. G. G. Aitken and D. A. Stoney; The use of statistics in Forensic Science, Ellis Harwood Limited, England (1991) 3. Bridges BC; Criminal Investigation, Practical Finger Printing, Thumb Impressions, Hand writing Expert testimony opinion Evidence, University Book Agency, Allahabad (2000 | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
ZOO651C - SERICULTURE LAB (2021 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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In Sericulture, the basic requirement lies on systematic quality-based coaching and training in advanced Science and Technologies/innovations. The main objective of this course is to create a basic knowledge and provide improved human resource to Silk industry and expected to bring direct benefits to rural development and sericulture farming community. |
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Learning Outcome |
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C01: To know the culturing aspects of mulberry plants CO2: To know the culturing aspects of silkworm CO3: To understand the marketing possibilities of silk |
Unit-1 |
Teaching Hours:30 |
Sericulture Lab
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1. Soil sampling and analysis of pH and moisture content. 2. Raising of sapling and seedling (field work) – Intercultivation, Grafting and Layering in mulberry (Field study). 3. Harvesting and preservation techniques; leaf selection for different instars (Field study). 4. Morphology- Egg, last instar larva, pupa, adult, sexual dimorphism, mouthparts, antennae, legs, prolegs, wings (Demonstration) 5. Anatomy-Dissection of alimentary canal, silk gland of larva and reproductive system of adult (Demonstration). 6. Silkworm rearing: Rearing houses- model rearing house and low-cost rearing house, Rearing appliances. 7. Disinfection- Types of disinfectants- concentration and dosage requirement; preparation of spray formulation of disinfectants. 8. Visit to various sericulture centres | |
Text Books And Reference Books: 1. Text Book of Tropical Sericulture. Publ., Japan Overseas Corporation volunteers – 2015. 2. Silkworm Genetics illustrated by Tada Yokoyama. | |
Essential Reading / Recommended Reading 1. The natures and property of soils (9th edition) N. C. Brady (Mac Millan pub. Co. Inc., New York. 2. Studies on soils of India, S. V. Govind Rajan and H. G. Gopala Rao (1970), Vikas Publ. House Pvt. Ltd., New Delhi. | |
Evaluation Pattern Continuous Internal Assessment (CIA) CIA-I – Performance – 20 Marks CIA-II- Mid Semester Practical Examination – 20 Marks CIA-III – Record – 10 Marks ESE - 50 Marks | |
ZOO651D - RESEARCH PROJECT IN ZOOLOGY (2021 Batch) | |
Total Teaching Hours for Semester:30 |
No of Lecture Hours/Week:2 |
Max Marks:50 |
Credits:2 |
Course Objectives/Course Description |
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To understand the techniques in biological science that will help the students in research, to familiarize with scientific writing of research paper, to learn basic concepts of research and to learn the common calculations in laboratory |
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Learning Outcome |
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C01: To explore the research areas in life sciences. CO2: To know the art of scientific writing and presentation. CO3: To know how to collect and interpret the scientific data CO4: Conduct basic scientific research and provide inputs for societal benefits CO5: Acquire the skills in handling scientific instruments, planning and performing in laboratory experiments |
Unit-1 |
Teaching Hours:12 |
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Basic concepts of research:
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Research-definition and types of research (Descriptive vs analytical; applied vs fundamental; quantitative vs qualitative; conceptual vs empirical). Steps in Research; Research methods vs methodology. Literature-review and its consolidation, Types of Journals (General Scientific Journals, general discipline journals, specialist journals, open access journals). Library research.: | ||
Unit-2 |
Teaching Hours:3 |
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General laboratory practices
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Common calculations in Laboratories - Molarity and normality of common acids and bases. Understanding the details on the label of reagent bottles. Preparation of solutions. Dilutions. Percentage solutions. Molar, molal and normal solutions. | ||
Unit-3 |
Teaching Hours:4 |
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Data collection and documentation of observations
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Maintaining a laboratory record; Tabulation and generation of graphs. Imaging of tissue specimens and application of scale bars. | ||
Unit-4 |
Teaching Hours:6 |
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Overview of Biological Problems
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Key biology research areas, Model organisms in biology (A Brief overview): Genetics, Physiology, Biochemistry, Molecular Biology, Cell Biology, Genomics, Proteomics-Transcriptional regulatory network | ||
Unit-5 |
Teaching Hours:5 |
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The art of scientific writing and its presentation:
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Numbers, units, abbreviations and nomenclature used in scientific writing. Writing references. PowerPoint presentation. Poster presentation. Preparation of thesis (Layout and formatting of thesis), plagiarism | ||
Text Books And Reference Books: 1. Thomas, C.G., Research Methodology and Scientific Writing. Anne Books Pvt. Ltd. Bengaluru. 2017. 2. Dawson, C. Practical research methods. UBS Publishers, New Delhi. 2002. | ||
Essential Reading / Recommended Reading 1. Tapleton, P., Yondeowei, A., Mukanyange, J., Houten, H. Scientific writing for agricultural research scientists – a training reference manual. West Africa Rice Development Association, Hong Kong, 1995. | ||
Evaluation Pattern
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