Department of Animal Science
Department of Animal Science
Department of Animal Science
Faculty:
Professor
Vacant-01
Associate Professor
Dr Asamanja Chattoraj (Head, Specialization: Physiology and Endocrinology)
Vacant-01
Assistant Professor
Dr.Suprabhat Mukherjee (Specialization: Biochemistry & Molecular Biology)
Dr. Sourabh Sulabh (Specialization: Animal Genetics & Breeding)
Dr. Prem Rajak (Specialization: Molecular Biology & Genetics)
Dr. Manas Paramanik (Specialization: Entomology)
Collaborations:
MOU with IASST, Guwahati (An Autonomous R&D National Research Institute)
Regarding Research and Teaching.
Research Programmes:
i. Environmental factor and rhythm physiology
ii. Molecular parasitology and therapeutic immunointervention
iii. Animal breeding and genetics
iv. Endocrine physiology
v. Entomology
Contact us:
Department of Animal Science, Kazi Nazrul University, Nazrul Road, Kalla Bypass P.O.-Kalla ,
Asansol-713340, Dist.- Paschim Burdwan, West Bengal
a) Name of H.O.D: Dr Asamanja Chattoraj
b) Contact Number of H.O.D: 09436280230
c) Email of H.O.D: asamanja.chattoraj@knu.ac.in / asamanja.chattoraj@gmail.com /
hodanimalscienceknu@gmail.com
Photo Gallery:
KAZI NAZRUL UNIVERSITY Integrated B.Sc + M.Sc Animal Science (W.E.F. 2019-2020)
Course of Discipline Course Course Semister Internal Marks End Sem Marks Total
Discipline Semester Course Name Course Code Course Details L-T-P Sem Marks
Study Code Code Type Credit Credit Marks
Practical Theoretical Practical Theoretical
Course of Discipline Course Course Semister Internal Marks End Sem Marks Total
Discipline Semester Course Name Course Code Course Details L-T-P Sem Marks
Study Code Code Type Credit Credit Marks
Practical Theoretical Practical Theoretical
Students of an Honours department may choose one Generic Elective Paper each semester from the pool offered by Different Dept.
POOL OF GENERIC ELECTIVE COURSES
INTEGRATED B.SC. + M.SC. Course
IN ANIMAL SCIENCE
(WITH EFFECT FROM 2019-20)
[CHOICE BASED CREDIT SYSTEM]
B.Sc.
Semester - I 8 4 - - - 4 2 4 22
Semester - II 8 4 - - - 4 2 2 20
Semester - III 12 6 - - 4 4 2 - 28
Semester - IV 12 6 - - 4 4 2 - 28
Semester - V 8 4 8 4 - - - - 24
Semester - VI 8 4 8 4 - - - - 24
Total 56 28 16 8 8 16 8 6 146
M.Sc.
Semester - I 16 6 - - - - 22
Semester - II 16 6 - - 4 - 26
Semester - III 16 6 - - - - 22
Semester - IV - - 8 6 - 6 20
Total 48 18 8 6 4 6 90
Core Courses: Course that should compulsorily be studied by a candidate as a core requirement.
Discipline Specific Elective Course: Course offered by the main discipline/ subject of study, which may be very specific or
specialized or advanced or supportive to the discipline/ subject of study or which provides an extended scope and which may be
chosen from a pool of courses.
Skill Enhancement Course: Value-based and/ or skill-based course, aimed at providing hand-on training, competency, skill etc.
Generic Elective Course (Interdisciplinary Course): Course chosen generally from an unrelated discipline/ subject of study with
an intention to seek an exposure to other subjects.
Ability Enhancement Compulsory Courses: Courses based on the contents that lead to knowledge enhancement and consist of
(i) Environmental Studies & (ii) English/ MIL Communication.
Major Elective Courses (Specialization): Students will opt one out of the Major Electives offered by the department in PG level.
Minor Elective Courses (Interdisciplinary Course): M.Sc. Zoology students will opt one Minor Elective course of 4 credits in
the Semester II offered by other PG Departments
Project Work/ Term Paper/ Dissertation: Involves application of knowledge in solving / analyzing /exploring a real life situation
/ problem.
B.Sc. Course Details
Semest Course
Course Name Objectives Outcomes
er Code
IBSMSASC To acquire distinct idea about To get familiar with the
Invertebrate Diversity
101 invertebrate animal diversity invertebrate world
To get familiar with To be able to deal with evolving
IBSMSASC
Ecology relationships between biotic and ecological hazards
102
I abiotic factors
Make familiar with the Better Understanding of the
GE1 Chemistry - 1
requirement of the knowledge subject
To get familiar with different To be able to deal with evolving
AECE101 Environment Studies
environmental aspects environmental crisis
IBSMSASC To acquire distinct idea about To get familiar with the
Vertebrate Diversity
201 vertebrate animal diversity vertebrate world
To understand the molecular Understand the utility of cellular
IBSMSASC
Biology of Cell mechanism underlying interactions in biological
202
II biological phenomenon of cell phenomenon
Make familiar with the Better Understanding of the
GE2 Chemistry - 2
requirement of the knowledge subject
Knowledge of English for Better Understanding of the
AECE201 English/MIL
present study subject
To get acquainted with the Entrepreneurship development
IBSMSASC
Livestock Management techniques of management and related with Animal Husbandry
301
economics of domestic animals
To have basic understandings of Understand the working of
IBSMSASC Animal Physiology and the principles of animal systems animal systems and applications
302 Comparative Anatomy in development of molecular
tools
To understand the complexity, Enrich the fundamental
IBSMSASC structural organization and knowledge on cellular and
Animal Biochemistry
III 303 function of cellular molecular chemistry of living
biomolecules system
GE3 Botany - 1 (Plant Physiology)
IBSMSASS Economic Importance of To understand the relevance of
EC301 Animals animals for betterment of
To imbibe the understanding of
human community.
importance and development of
Use of breeding strategies for
IBSMSASS animals for the benefit of
Basics of Animal Breeding development of animal stocks
EC302 human.
with required production.
Semest
Course Code Course Name Objectives Outcomes
er
IBSMSASC7 Understanding of diversity and Use of diversity and resources for
Animal Bioresources
01 resources of animals welfare of humans and animals
To understand the molecular Understand the utility of
IBSMSASC7 Advanced Cellular and
mechanism underlying cellular molecular and cellular interactions
02 Molecular Biology
and biological phenomenon in biological phenomenon
To develop the knowledge of To use the understanding in
IBSMSASC7
VII Biochemistry and Immunology chemical process and immune development of drug candidate,
03
system in living organisms diagnostic tools and vaccine
To study the relationship between Application of ecological
IBSMSASC7 Advanced Ecology and
biotic and abiotic components and understanding for conservation of
04 Conservation Biology
conservation of environment environment
IBSMSASC7 Acquire the knowledge of Implement the knowledge of
Practical
05 practical practical
To have advanced understandings Use of the advances in animal
IBSMSASC8 Advanced Animal Physiology of the principles of animal physiology and histological
01 and Histotechnology systems and study of histological techniques for evolving better
tools research concepts
To acquire knowledge about the Application in developing
IBSMSASC8 Inheritance Biology and
development of pre and post solutions for embryological
02 Developmental Biology
embryonic stages development-based complexities
To implement the understanding To use the knowledge to
IBSMSASC8 of parasitic infestations, formulate strategies for
Parasitology and Microbiology
VIII 03 microbiological community and epidemiological studies and
diseases preventive measures
Imparting the knowledge of Using the knowledge to
IBSMSASC8 Livestock Management and
management of animals and understand the importance of
04 Animal Breeding
improvement of stocks of animals animal production and economics
IBSMSASC8 Acquire the knowledge of Implement the knowledge of
Practical
05 practical practical
To understand the implications of To formulate strategies to revert
IBSMSASMI
Environmental Health changing environment on animal the effects of environmental
E801
and human health changes
To acquire basic understandings To apply knowledge of
IBSMSASC9 Animal Biotechnology and biotechnology methods and to biotechnological tools in
01 Biophysics acquire basic knowledge of tools development of animal production
and technique of biophysics and welfare.
IX
To understand the importance of To use the understanding in
IBSMSASC9 animal health and its deviation development of strategies for
Animal Health and Pathology
02 from normal leading to enhancing animal and human
pathological outcomes health
To know about the insect and fish Application of insect and fish
IBSMSASC9
Entomology and Ichthyology world products for animal or human
03
welfare
To implement the understanding
of software-based tools in To use the tools for research
IBSMSASC9 Bioinformatics, Biostatistics
bioinformatics and biostatistics studies and humane treatment of
04 and Bioethics
and to understand basics of animals
bioethics
IBSMSASC9 Acquire the knowledge of Implement the knowledge of
Practical
05 practical practical
IBSMSASMJ Environmental Factors and
E1001 Rhythm Physiology I
IBSMSASMJ Molecular Parasitology and
E1002 Immunology I
Theoretical and practical
IBSMSASMJ Animal Breeding and
understanding in detail of the Detailing of the subject
E1003 Laboratory Animals I
specialized topic
IBSMSASMJ
Cell and Molecular Biology I
E1004
IBSMSASMJ
Entomology I
E1005
IBSMSASMJ Environmental Factors and
E1006 Rhythm Physiology II
IBSMSASMJ Molecular Parasitology and
E1007 Immunology II
Theoretical and practical
IBSMSASMJ Animal Breeding and
understanding in detail of the Detailing of the subject
E1008 Laboratory Animals II
specialized topic
IBSMSASMJ
X Cell and Molecular Biology II
E1009
IBSMSASMJ
Entomology II
E1010
IBSMSASMJ Environmental Factors and
E1011 Rhythm Physiology III Practical
IBSMSASMJ Molecular Parasitology and
E1012 Immunology III Practical
Animal Breeding and Theoretical and practical
IBSMSASMJ
Laboratory Animals III understanding in detail of the Detailing of the subject
E1013
Practical specialized topic
IBSMSASMJ Cell and Molecular Biology III
E1014 Practical
IBSMSASMJ
Entomology III Practical
E1015
To realize the results of the entire Reflect the overall understanding
IBSMSASC1 Project Work / Term Paper
course and knowledge acquired during
001 related to MJE
the entire course
INTEGRATED B.SC. + M.SC. PROGRAMME
IN ANIMAL SCIENCE
(WITH EFFECT FROM 2019-20)
[CHOICE BASED CREDIT SYSTEM]
Semester - I 8 4 - - - 4 2 4 22
Semester - II 8 4 - - - 4 2 2 20
Semester - III 12 6 - - 4 4 2 - 28
Semester - IV 12 6 - - 4 4 2 - 28
Semester - V 8 4 8 4 - - - - 24
Semester - VI 8 4 8 4 - - - - 24
Total 56 28 16 8 8 16 8 6 146
M.Sc.
Semester - I 16 8 - - - - 24
Semester - II 16 8 - - 4 - 28
Semester - III 16 8 - - - - 24
Semester - IV - - 8 4 - 4 16
Total 48 18 8 6 4 6 92
Core Courses: Course that should compulsorily be studied by a candidate as a core requirement.
Discipline Specific Elective Course: Course offered by the main discipline/ subject of study, which may be very specific or
specialized or advanced or supportive to the discipline/ subject of study or which provides an extended scope and which may be
chosen from a pool of courses.
Skill Enhancement Course: Value-based and/ or skill-based course, aimed at providing hand-on training, competency, skill etc.
Generic Elective Course (Interdisciplinary Course): Course chosen generally from an unrelated discipline/ subject of study with
an intention to seek an exposure to other subjects.
Ability Enhancement Compulsory Courses: Courses based on the contents that lead to knowledge enhancement and consist of
(i) Environmental Studies & (ii) English/ MIL Communication.
Major Elective Courses (Specialization): Students will opt one out of the Major Electives offered by the department in PG level.
Minor Elective Courses (Interdisciplinary Course): M.Sc. Zoology students will opt one Minor Elective course of 4 credits in
the Semester II offered by other PG Departments
Project Work/ Term Paper/ Dissertation: Involves application of knowledge in solving / analyzing /exploring a real life situation
/ problem.
B.Sc. Course Details
Credits
Semester Course Code Course Name Marks
(Th + Pr)
IBSMSASC101 Invertebrate Diversity 4+2 100
SEMESTER: I - VI
1. In a course (paper) of 100 marks, 50 will be Theory and 50 will be Practical. Courses which are without
any Practical, full marks will be 50.
2. In each course, 20% marks in Theory & 60% marks in Practical is allotted for Internal Assessments i.e., in
Theory of 50 marks, 10 marks will be allotted for Internal Assessment & 40 marks for End Semester
Examination and in Practical of 50 marks, 30 marks will be allotted for Internal Assessment & 20 marks
for End Semester Examination.
3. Marks distribution for each theoretical paper of End Semester Examination will be as follows:
UNIT I (Total Marks 20): Four questions (out of five) of 1 mark each, four questions (out of five) of 2
marks each and one question (out of two) of 8 marks are to be answered
UNIT II (Total Marks 20): Four questions (out of five) of 1 mark each, four questions (out of five) of 2
marks each and one question (out of two) of 8 marks are to be answered
SEMESTER: VII - X
Theory (4 credits)
Unit Course content Class
Animal classification:
1. Concept of Classification, Systematics, Taxonomy, Taxonomic hierarchy, Taxonomic types.
2. Codes of Zoological nomenclature, Principal of priority, Synonymy and Homonymy. 5
3. Five and Six kingdom and Domain concept of classification.
4. Minor phyla.
Protista:
1. General characteristics and classification up to Phylum (Levine et. al., 1980).
6
2. Basic idea of nutrition and reproduction in Protozoa.
3. Type study: Paramoecium.
Porifera:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994).
5
2. Canal system and Spicules in Porifera.
I
3. Type study: Sycon.
Cnidaria and Ctinophora:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994).
2. Polymorphism in Cnidaria. 6
3. Coral and coral reefs - diversity, formation, importance and conservation.
4. Type study: Sea-anemone.
Platyhelminthes:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994). 4
2. Type study: Fasciola hepatica.
Nematoda:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994). 4
2. Type study: Ascaris lumbricoides.
Annelida:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994).
5
2. Metamerism in Annelida.
3. Type study: Pheretima.
Arthropoda and Onychophora:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994).
5
2. General characteristics and Evolutionary significance of Onychophora.
3. Type study: Macrobrachium.
II
Mollusca:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994).
5
2. Torsion and distortion in Gastropoda.
3. Type study: Pila.
Echinodermata:
1. General characteristics and classification up to Classes (Ruppert & Barnes, 1994).
5
2. Larval forms in Echinodermata, their evolutionary significance.
3. Type study: Asterias.
50
Suggested Readings:
1) Barnes, R. D. & Ruppert, E. E. (1994). Invertebrate Zoology. 6th Ed. Brooks Cole.
2) Brusca, R. C. & Brusca, G. J. (2002). Invertebrates. 4 th Ed. Sinauer Associates.
3) Chatterjee, A. & Chakraborty, C. (2015). Text Book of Zoology. Nirmala Library
4) Ganguly, B. B., Sinha, K. S. & Adhikari, S. (2012). Biology of Animals. Vol. I. New Central Book Agency.
5) Jordan, E. L. & Verma, P. S. (2006). Invertebrate Zoology. S. Chand & Company Ltd.
6) Kotpal, R.L. (2019). Modern Text Book of Zoology: Invertebrates. 11th Ed. Rastogi Publications.
7) Mayr, E. & Ashlock, P. D. (1991). Principles of Systematic Zoology. 2 nd Ed., McGraw-Hill.
8) Parker, T. J. & Haswell, W. (1972). Text Book of Zoology, Volume I: Marshall and Williams (Eds.) 7th Ed. Macmillan.
Practical (2 credits)
1. Identification (Systematic Position and specimen characters): Amoeba, Euglena, Paramoecium, Sycon, Obelia, Physalia,
Aurelia, Gorgonia, Pennatula, Fungia, Adamsia, Fasciola, Ascaris, Aphrodite, Nereis, Pheretima, Hirudo, Limilus,
Palamnaeus, Balanus, Palaemon, Hippa, Cancer, Scolopendra, Periplaneta, Patella, Chiton, Pila, Doris, Achatina,
Lamellidens, Dentalium, Nautilus, Sepia, Octopus, Antedon, Astropecten, Asterias, Ophiura
2. Study of Digestive System and Nervous system of Cockroach.
3. Mounting: Mouthparts of Cockroach and Mosquito, Compound eye of Prawn.
4. Visit to any biodiversity reach place to study the Invertebrate diversity and habitats.
End Semester Examination Pattern: Full marks – 20
1) Identification (6 from item no. 1): 12 marks
2) Dissection (1 from item no. 2): 6 marks
3) Mounting (1 from item no. 3): 2 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ghosh, K. C. and Manna, B. (2015): Practical Zoology, New Central Book Agency, Kolkata
2) Lal, S. S. (2016). Practical Zoology - Invertebrate. Rastogi Publication.
3) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
IBSMSASC102: Ecology
Theory (4 credits)
Unit Course content Class
Introduction to Ecology:
1. Levels of organization, Laws of limiting factors. 4
2. Autecology and Synecology.
3. Biosphere and study of physical factors.
Ecosystem:
1. Types of ecosystems with example of marine ecosystem in detail.
2. Food chain: Detritus and grazing food chains, Linear and Y-shaped food chains, Food web; Energy flow 10
through the ecosystem.
3. Ecological pyramids and Ecological efficiencies.
4. Nutrient and biogeochemical cycle with example of Nitrogen cycle.
I Population Ecology:
1. Attributes of a Population: Density, natality, mortality, life tables, fecundity tables, survivorship curves,
dispersal and dispersion. 6
2. Exponential and logistic growth patterns, equation and Patterns.
3. r and k strategies.
Regulation of population:
1. Density-dependent and density-independent factors.
2. Different interactions in a population. 5
3. Gause’s Principle with laboratory and field examples.
4. Lotka-Volterra equation for competition.
Community:
1. Characteristics of Community: Species diversity, richness, dominance, abundance, vertical stratification. 6
2. Ecotone and edge effect.
Ecological Succession:
1. Ecological succession, Primary, secondary and Cyclic Succession. 7
2. Seral community, Theories pertaining to Climax community.
II Wildlife & Conservation
1. Wildlife Conservation (ideas of in-situ and ex-situ conservation with examples). 6
2. Management strategies for tiger conservation; Protection laws for wildlife conservation.
Wetland conservation
1. Wetland conservation laws and global efforts, Major laws and conventions relating to wetland
6
conservation.
2. Indian conservation strategies and implementations.
50
Suggested Readings:
1) Kormondy, E. J. (2002). Concepts of Ecology. 4th Indian Reprint, Pearson Education.
2) Krebs, C. J. (2001). Ecology. Benjamin Cummings.
3) Krebs, C.J. (2016). Ecology: The Experimental Analysis of Distribution and Abundance. Pearson Edu Ltd.
4) Molles, Jr. M.C. (2005). Ecology: Concepts and Applications. 3rd Ed. McGraw- Hill.
5) Odum, E. P. & Barret, G. W. (2005). Fundamentals of Ecology. 5th Ed. Thompson Brooks/Cole.
6) Ricklefs, R. E. & Miller, G. L. (2000). Ecology. 4th Ed. W. H. Freeman & Company.
7) Russel, P.J., Wolfe, L. S., Hertz, P.E. Starr, C. & McMillan, B. (2008). Ecology.
8) Brooks/Cole. Saharia, V. B. (1998). Wildlife in India. Natraj Publishers.
9) Smith, R. L. & Smith, T. M. (2001). Ecology and Field Biology. Benjamin Cummings. Pearson Education.
10) Smith, T. M & Smith, R. L. (2006). Elements of Ecology. 6th Ed. Pearson Education.
11) Stiling, P. (2009). Ecology- Theories and Applications. 4th Ed. Prentice Hall of India.
Practical (2 credits)
1) Preparation of nested quardrat and estimation of effective quardrat size. Determination of population density in a natural/
hypothetical community by quadrat method and calculation of Sorenson’s Similarity & Shannon-Weiner diversity indices
for the same community.
2) Study of an aquatic ecosystem: Major Phytoplankton and zooplankton (Up to Genus).
3) Determination of temperature, turbidity/ penetration of light; determination of pH, and Dissolved Oxygen content
(Winkler’s method) and free CO2.
4) Estimation of Primary productivity by light & dark bottle method.
5) Field observations/ study at National Park/ Biodiversity Park/ Wild life Sanctuary/ Sea Shore.
End Semester Examination Pattern: Full marks – 20
1) Biochemical test (1 from item no. 3 & 4): 7 marks
2) Determination of population density (1 from item no. 1): 4 marks
3) Identification (2 from item no. 2): 4 marks
4) Field report/ educational tour report: 5 marks
5) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
6) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ghosh, K. C. and Manna, B. (2015): Practical Zoology, New Central Book Agency, Kolkata
2) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
1. Multidisciplinary nature of environmental studies
i) Definition, Nature, Scope and importance
ii) Types andComponents of environment 5
iii) Environmental education.
iv) Global environmental crisis.
2. Natural Resources: Renewable and Non-renewable resources
i) Forest resources: Uses types and importance, deforestation and its effects
ii) Water resources: Distribution of water on earth, use and overuse
iii) Mineral resources: Use and exploitation, environmental effects of extracting and using mineral
resources, case studies
10
I iv) Food resources: World food production & distribution. Food crisis- its causes
v) Energy resources: Renewable and Non-renewable energy sources, Use of alternate energy sources
vi) Land resources: Land as a resource, Land degradation, Landslides, Soil erosion
vii) Role of an individual in the conservation of natural resources
viii) Equitable use of resources for sustainable life style.
3. Ecology and Ecosystems:
i) Concept of ecology, autecology and synecology
ii) Concept of an ecosystem: Different types of ecosystem, Biomes
5
iii) Energy flow in the ecosystem, Energy flow models
iv) Food chains, food webs and ecological pyramids
v) Biogeochemical cycles: Nitrogen and Phosphorus
4. Bio-diversity and its conservation
i) Introduction- Defination: Genetics, species and ecosystem diversity
ii) Threats to bio-diversity: Value of bio-diversity, Hot-spots of bio-diversity 5
iii) Conservation of bio-diversity: In situ and Ex situ conservation of bio-diversity
iv) Endangered and endemic species of India
5. Environmental Pollution
i) Air pollution: Definition, Sources, Causes, Effects and Control measures
ii) Water pollution: Definition, Sources, Causes, Effects and Control measures
iii) Soil pollution: Definition, Sources, Causes, Effects and Control measures
10
iv) Noise pollution: Definition, Sources, Causes, Effects and Control measures
v) Fireworks pollution: Definition, Composition/Ingredients, Effects, Monitring strategies
vi) Thermal Pollution: Brief concepts
vii) Nuclear Pollution: Brief concepts
6. Social Issues and the Environment
i) Water conservation, rain water harvesting
ii) Climate change, global warming, acid rain, ozone layer depletion
II iii) From unsustainable to sustainable development
iv) Urban problem related to energy
10
v) Govt. Agencies viz. CPCB, SPCB and their functions
vi) Constitutional Provisions for protecting environment-Articles 48(A), 51A (g)
vii) The Environment (protection) Act, 1986
viii) Environment protection movements in India: Chipko Movements, Silent Valley Movements in
Karnataka
7. Human Population and the Environment
i) Definition, characteristic; Human population growth
ii) Population explosion- Family Welfare Programme 5
iii) Environment and human health: Concept of health & disease
iv) Human rights, value education, role of Information technology in environment
50
Suggested Readings:
1) Basu, M. and Xavier, S., Fundamentals of Environmental Studies, Cambridge University Press, 2016.
2) Mitra, A. K and Chakraborty, R., Introduction to Environmental Studies, Book Syndicate, 2016.
3) Enger, E. and Smith, B., Environmental Science: A Study of Interrelationships, Publisher: McGraw-Hill Higher
Education; 12th edition, 2010.
4) Basu, R.N, Environment, University of Calcutta, 2000.
5) Bharucha, E. Text Book of Environmental Studies (UGC).
Theory (4 credits)
Unit Course content Class
1. General characteristics and outline classification of Phylum Chordata (Young, 1981).
3
2. Origin of Chordates.
Protochordata:
1. Concept of Protochordata (Hemichordata, Urochordata and Cephalochordata).
10
2. Retrogressive metamorphosis in Ascidia.
3. Type study: Balanoglossus and Branchiostoma.
Pisces:
1. General characteristics and classification of Chondrichthyes and Osteichthyes up to Sub-Classes
I
(Nelson, 2006).
12
2. Accessory respiratory organ, Migration and Swim bladder in Fishes.
3. Anatomical peculiarity, distribution and evolutionary significance of Dipnoi.
4. Type study: Scoliodon.
Amphibia:
1. General characteristics and classification up to living Orders (Young, 1981).
8
2. Metamorphosis and Parental Care in Amphibia.
3. Type study: Bufo.
Reptilia:
1. General characteristics and classification up to living Orders (Young, 1981).
II 9
2. Poison apparatus, biting mechanism and venom in Snakes.
3. Anatomical peculiarity, distribution and evolutionary significance of Sphenodon.
4. Type study: Calotes.
Aves:
1. General characteristics and classification up to Sub-Classes (Young, 1981).
8
2. Migration and Flight (principal and aerodynamics) in Birds.
3. Type study: Columba.
Mammals:
1. General characteristics and classification up to living Orders (Young, 1981).
2. Affinities of Prototheria. 10
3. Echolocation in Micro-chiropterans and Cetaceans.
4. Type study: Cavia.
60
Suggested Readings:
1) Chatterjee, A. & Chakraborty, C. (2015). Text Book of Zoology. Nirmala Library
2) Jordan, E. L. & Verma, P. S. (2003). Chordate Zoology. S. Chand & Company Ltd.
3) Kotpal, R. L. (2019). Modern Text Book of Zoology: Vertebrates. 4th Ed. Rastogi Publications.
4) Nelson, J. S. (2006): Fishes of the World, 4th Ed. Wiley.
5) Parker, T. J. & Haswell, W. (1972). Text Book of Zoology, Volume II: Marshall and Williams (Eds.) 7th Ed. Macmillan.
6) Romer, A. S. & Parsons, T. S. (1986).The vertebrate body. 6th Ed. Saunders College Pub.
7) Sinha, K. S., Adhikari, S., Ganguly, B. B. & Goswami B. (2012). Biology of Animals. Vol. II. New Central Book Agency.
8) Young, J. Z. (1981). The Life of Vertebrates. 3 rd Ed. Oxford University Press.
Practical (2 credits)
1. Identification (Systematic Position and specimen characters): Balanoglossus, Herdmania, Branchiostoma, Petromyzon,
Myxine, Scoliodon, Sphyrna, Pristis, Torpedo, Harpadon, Labeo, Mystus, Anguilla, Exocoetus, Hippocampus, Echeneis,
Ichthyophis, Necturus, Salamandra, Axolotl larva, Bufo, Rana, Hyla, Alytes, Tadpole, Chelone, Tryonyx, Hemidactylus,
Chamaeleon, Draco, Bungarus, Vipera, Naja, Hydrophis, Psittacula , Passer, Alcedo, Pteropus, Funambulus, Suncus.
2. Key for Identification of poisonous and non-poisonous snakes.
3. Study of different types of beaks and claws in birds.
4. Dissection of Digestive System and Brain of Carp.
5. Dissection of Vth & VIIth Cranial Nerve of Fowl.
6. Mounting: Different types of scales in Fish, Pecten from Fowl.
7. Visit to any biodiversity reach place to study the Vertebrate diversity and habitats.
End Semester Examination Pattern: Full marks – 20
1) Identification (4 from item no. 1 and 1 each from item no. 2 & 3): 12 marks
2) Dissection (1 from item no. 4 & 5): 6 marks
3) Mounting (1 from item no. 6): 2 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ghosh, K.C. and Manna, B. (2015): Practical Zoology, New Central Book Agency, Kolkata
2) Lal, S. S. (2016). Practical Zoology - Vertebrate. Rastogi Publication.
3) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
Overview of Cells
1. Basic structural architecture of Prokaryotic and Eukaryotic cells. 3
2. Virus, Viroids, Prions and diseases.
Plasma Membrane
1. Models of plasma membrane structure with special reference to fluid mosaic model. 4
I
2. Structure and Significance of common Cell junctions: Tight junctions, Desmosomes, Gap junctions
Cytoplasmic organelles
1. Structure and Functions of Endoplasmic Reticulum, Golgi apparatus and Lysosomes. 6
2. Mitochondria: Structure, Semi-autonomous nature, Endosymbiotic hypothesis.
3. Basic structure and function of Peroxisome.
Cytoskeleton
4
1. Structure and Functions of Microtubules, Microfilaments and Intermediate filaments
Nucleus
1. Structure of Nucleus: Nuclear envelope, Nuclear pore complex.
2. Chromatin: Euchromatin and Hetrochromatin. 8
3. Chromosome: Chemical and physical structure, Structure and classification of Nucleic acids.
4. Mechanism of DNA replication in prokaryotes, Semi-conservative, bidirectional and semi-
discontinuous replication, replication of telomeres.
Transport across membranes
3
1. Concepts of Active and Passive transport, Facilitated transport.
Cell cycle
1. Stages and regulation through checkpoints.
Cell division
6
2. Process and significance of mitosis and meiosis.
Spindle apparatus
3. Assembly of Spindle apparatus and its significance, Motor proteins.
II Cell signaling
1. Basic concepts of cell signaling mechanism.
6
2. Types of signaling molecules and their receptors, GPCR.
3. Role of second messengers with special reference to cAMP.
Mitochondrial function physiology
1. Mitochondrial Respiratory Chain. 4
2. Chemi-osmotic hypothesis
Central Dogma
6
1. Mechanism of Transcription and Translation in prokaryotes.
50
Suggested Readings:
1) Albert Bruce, Bray Dennis, Levis Julian ,Raff Martin, Roberts Keith and Watson James (2008). Molecular Biology of
the Cell, V Edition, Garland publishing Inc., New York and London.
2) Cooper, G.M. and Hausman, R.E. (2009). The Cell: AMolecularApproach.5thEdition. ASM Press and Sunderland,
Washington, D.C.; Sinauer Associates, MA.
3) Hardin, J. Bertoni, G and Klein smith, J. L. (2012). Becker’s World of the Cell. 8th Edn, Pearson Benjamin Cummings,
San Francisco.
4) Harvey, L. (2004). Molecular Cell Biology. 5th Edn. W.H. Freeman.
5) Karp, G. (2008). Cell and Molecular biology: Concepts and Application. 5th Edn, John Wiley.
6) Pollard and Earnshaw (2007). Cell Biology. 2nd. Edn Saunders.
7) Lodish, Berk, Matsudaira, Kaiser, Bretscher, Ploegh, Amon, and Martin (2016) Molecular Cell Biology. 8th Edn. W.H.
Freeman
Practical (2 credits)
1) Preparation of temporary stained squash of Onion root tip to study various stages of mitosis.
2) Study of various stages of meiosis in Grasshopper testis.
3) Preparation of permanent slide to show the presence of Barr body/ drum stick in human female blood cells/ cheek cells.
4) Polytene chromosome preparation from Drosophila/ Chironomid larvae.
End Semester Examination Pattern: Full marks – 20
1) Squash preparation and stage identification (1 from item no. 1 & 2): 8 marks
2) Preparation for Barr body/ drum stick: 8 marks
3) Preparation of Polytene Chromosome: 4 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ghosh, K.C. and Manna, B. (2015): Practical Zoology, New Central Book Agency, Kolkata
2) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
GE1: Chemistry - 2 (Supramolecular and Medicinal Chemistry)
Theory (4 credits)
Unit Course content Class
1. Various indigenous breeds of livestock including poultry.
2. Exotic breeds experienced in India, 6
3. Origin, distribution and breed description of important breeds.
1. Dentition and ageing of animals.
2. Disbudding, marking of animals, Grooming, Dipping, Castration, Isolation, quarantine, Disinfection and 5
disposal of carcasses.
I 1. Drug administration, Vices of animals, their prevention and care.
4
2. Opportunities in dairy farming, Dairying under mixed and specialized farming.
1. Management of calves, heifer, pregnant, lactating and dry animals, bulls and bullocks. 4
1. Housing systems, Layout and design of different buildings for dairy animals.
2. Methods of milking and precautions.
6
3. Factors affecting quality and quantity of milk.
4. Organic Livestock Production.
1. Importance of grasslands and fodders in livestock production.
6
2. Feed and fodder requirements of individual animal.
1. Supply of greens throughout the year.
2. Scarcity fodder, 6
3. Recycling of animal wastes and washings for fodder production.
II
1. Sheep and Goat Farming: Homestead farming vs. Commercial farming, Goat as poor man’s cow. 6
1. Economic Importance of commercial poultry farming,
2. Backyard poultry farming.
7
3. Brooding management. Incubation and hatching,
4. Management of broilers, layers and breeder flock.
50
Suggested Readings:
1)A Textbook Of Animal Husbandry- GC Banerjee.
2) Animal husbandry & veterinary science- TNPalanivelu.
3)Animal Husbandry- Gyan Deep Singh, Anmol Publishers.
4) Livestock productionand management. NSR Sastry and CK Thomas.
Practical (2 credits)
1. Identification of different breeds of cow, buffalo, pigs and poultry.
2. Incubation of Eggs.
3. Routes of administration of drugs.
4. Visit to a farm.
End Semester Examination Pattern: Full marks – 20
1) Identify the breeds (5 from item no. 1): 10 marks
2) Identification (1 from item no. 2): 2 marks
3) Experiment (1 from item number 3): 6 marks
4) Field report: 2 marks
5) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
6) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) A Textbook Of Animal Husbandry - GC Banerjee
2) Animal husbandry & veterinary science – TN Palanivelu
3) Animal Husbandry - Gyan Deep Singh, Anmol Publishers
4) Livestock production and management. - NSR Sastry and CK Thomas.
Theory (4 credits)
Unit Course content Class
Tissue:
Structure, location, classification and functions of epithelial tissue, connective tissue, muscular tissue and 4
nervous tissue
Bone and Cartilage:
3
Structure and types of bones and cartilages, Ossification
Nervous System:
1. Structure of neuron, resting membrane potential, Origin of action potential and its propagation across the
myelinated and unmyelinated nerve fibers. 5
2. Types of synapse, Synaptic transmission and Neuro-muscular junction;
3. Reflex action and its types
Muscular System:
I 1. Histology of different types of muscle;
4
2. Ultrastructure of skeletal muscle;
3. Molecular and chemical basis of muscle contraction; Characteristics of muscle fibre
Reproductive System:
1. Histology of testis and ovary 4
2. Physiology of Reproduction (Estrus and Menstrual cycle)
Endocrine System:
1. Histology and function of pituitary, thyroid, pancreas and adrenal
2. Classification of hormones;
3. Mechanism of Hormone action: Signal transduction pathways for Steroidal and Nonsteroidal hormones 5
4. Hypothalamus (neuroendocrine gland) – principal nuclei involved in neuroendocrine control of anterior
pituitary and endocrine system
5. Placental hormones
Integumentary System:
3
Structure, function and derivatives of integument in amphibian, birds and mammals
Skeletal System:
3
Overview of axial and appendicular skeleton; Jaw suspension; Visceral arches.
Digestive System:
1. Comparative anatomy of stomach. 3
2. Dentition in mammals
Respiratory System:
3
Respiratory organs in fish, amphibian, birds and mammals
Circulatory System:
1. General plan of circulation, 4
II
2. Comparative account of heart and aortic arches
Urinogenital System:
1. Succession of kidney,
3
2. Evolution of urinogenital ducts,
3. Types of mammalian uteri
Nervous System:
1. Comparative account of brain, 3
2. Cranial nerves in mammals
Sense Organs:
1. Classification of receptors, 3
2. Brief account of auditory receptors invertebrate
50
Suggested Readings:
1) Guyton, A.C. & Hall, J.E. (2006). Textbook of Medical Physiology. XI Edn. W.B. Saunders Company.
2) Hill, Wyese and Anderson (2012). Animal Physiology. 3rd Edn. SineuerAssociaes
3) Rastogi, S.C. (2007). Essentials of Animal Physiology4th Edn. New Age Pub., N. Delhi
4) Kent, G.C. and Carr R.K. (2000).Comparative Anatomy of the Vertebrates. IX Edition.
5) Saxena, R.K. & Saxena, S.C. (2008): Comparative Anatomy of Vertebrates, Viva Books Pvt. Ltd.
Practical (2 credits)
Animal Physiology:
1. Recording of simple muscle twitch with electrical stimulation (or Virtual)
2. Demonstration of the unconditioned reflex action (Deep tendon reflex such as knee jerk reflex)
3. Preparation of temporary mounts: Squamous epithelium, Striated muscle fibres
4. Identification of permanent slides of Mammalian Cartilage, Bone, Pituitary, Liver, Kidney, Intestine, Lung, Pancreas,
Testis, Ovary, Adrenal, Thyroid
5. Microtomy: Preparation of permanent slide of any five mammalian (Goat/ white rat) tissues.
Comparative Anatomy:
6. Mounting of cycloid and ctenoid scales
7. Study of disarticulated skeleton of Toad, Pigeon and Guineapig
8. Demonstration of Carapace and plastron of turtle from model/ chart
9. Identification of mammalian skulls: One herbivorous (Guineapig) and one carnivorous animal (Dog)
10. Study and Dissection of Afferent arterial system, brain, pituitary in Carp
End Semester Examination Pattern: Full marks – 20
1) Performance (1 from item no. 1, 2 & 3): 5 marks
2) Identification (3 from item no. 4, 7, 8 & 9): 6 marks
3) Preparation (1 from item no. 5): 4 marks
4) Dissection (1 from item no. 10): 5 marks
5) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
6) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
Structural Biochemistry:
Carbohydrate:
5
1. Structure, types and biological importance of carbohydrates (mono-, di- and polysacharides);
2. Open chain and ring structures, optical activity, isomerism and epimerism.
Protein:
1. Biochemistry of amino acids and Proteins, hierarchial organization of protein structure;
2. Protein as biocatalyst: Nomenclature and classification of Enzymes; Cofactors; Specificity of enzyme
action; Isozymes; Mechanism of enzyme action; Enzyme kinetics; Factors affecting rate of enzyme- 12
catalyzed reactions; Derivation of Michaelis-Mentene quation, Concept of Km and Vmax, Lineweaver-
I
Burkplot; Multi-substrate reactions; Enzyme inhibition; Allosteric enzymes and their kinetics; Regulation
of enzyme action.
Lipid:
1. Structure, classification and function of simple, complex and derived lipids. 4
2. Nomenclature of fatty acids, long chain alcohols, prostaglandin and leukotrienes.
Amino acids:
1. Structure and classification of DNA and RNA;
4
2. Linking number; Supercoiling;
3. Differences among different types DNA and RNA.
Carbohydrate Metabolism:
1. Sequence of reactions and regulation of glycolysis, Citric acid cycle, Electron transport chain and Oxidative
12
phosphorylation, Phosphatepentose pathway,
2. Gluconeogenesis, Glycogenolysis and Glycogenesis.
ProteinMetabolism:
II 1. Catabolism of amino acids: Transamination, Deamination, Ureacycle; 4
2. Fate of C-skeleton of glucogenic and Ketogenic amino acids
LipidMetabolism:
1. β-oxidation and omega-oxidation of saturated fatty acids with even and odd number of carbon atoms; 5
2. Biosynthesis of palmitic acid; Ketogenesis
Nucleic acid Metabolism: Synthesis (de novo & salvage) and degradation nucleotides. 4
50
Suggested Readings:
1) Lehninger’s Principles of Biochemistry by Nelson & Cox; 7 th Edition.
2) Biochemistry by Voet & Voet; 3rd Edition
3) Biochemistry by Stryer; 5th Edition
3) Principle of Biochemistry by Horton, Moran, Perry and Rawn, 5 th Edition
4) Textbook of Biochemistry by Thomas M. Devlin; 5 th Edition
Practical (2 credits)
1. Qualitative and quantitative analyses of glucose (Anthrone/ DNS method), ascorbic acid (DCPIP), total lipid (Sudan
III method) and Cholesterol (ZAK’s method).
2. Estimation of total protein (Lowry/ Bradford Method).
3. Estimation of DNA (DPA method) and RNA (Orcinol method).
4. Assay of salivary amylase under optimum conditions and determination of the enzyme kinetics.
End Semester Examination Pattern: Full marks – 20
1) Estimation of a biomolecule from item no. 1 and 2 - 8 marks
2) Estimation of nucleic acid from item no. 3 – 6 marks
Assay from item no. 4 - 6 Marks
3) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
4) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Practical Biochemistry by David T Plummer, 3 rd Edition
2) Biochemical Methods by S. Sadasivan and A. Manikam, 3 rd Edition
3) Modern Experimental Biochemistry by Rodney Boyer, 3rd Edition
4) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
Water relations:
1. Diffusion, Osmosis and Imbibition; 7
2. Water movement through Plants.
Nutrition:
1. Essential and beneficial elements, macro and micronutrients,
8
I 2. Methods of study and use of nutrient solutions,
3. Criteria for essentiality, mineral deficiency symptoms, roles of essential elements, chelating agents.
Photosynthesis:
1. Pigment systems, Light energy trapping reactions,
2. Photosynthetic electron transport; 10
3. Carbon-Di-Oxide fixation pathways,
4. Factor influencing photosynthesis.
Hormones:
1. Major hormones in Plants-Chemical nature, 10
2. Biosynthesis and physiological roles
Movement of fluids:
II 1. Transpiration in plants; Translocation of assimilates in plants. 8
2. Pressure flow Hypothesis (phloem loading and unloading); Source sink hypothesis.
Important Physiological functions and disturbances in Plants:
1. Flowering, Role of Phytochromes and Cryptochromes, 7
2. Senescence, dormancy, Drought resistance and Salinity tolerance.
50
Suggested Readings:
1. Hopkins, W.G. and Huner, A. (2008). Introduction to Plant Physiology. John Wiley and Sons. U.S.A. 4th edition.
2. Taiz, L., Zeiger, E., Moller, I.M. and Murphy, A (2015). Plant Physiology and Development. Sinauer Associates Inc. USA.
6th edition.
3. Bajracharya D. (1999). Experiments in Plant Physiology-A Laboratory Manual. Narosa Publishing House, New Delhi
Practical (2 credits)
1. Study of the effect of Humidity and light on the rate of transpiration in excised twig/ leaf.
2. Calculation of stomatal index and stomatal frequency from the two surfaces of leaves of a mesophyte and xerophyte.
3. Study of the phenomenon of seed dormancy (TTZ).
4. Demonstration on the effect of different concentrations of IAA on Plant (Locally Available) coleoptile elongation (IAA
Bioassay).
5. Study of the induction of amylase activity in germinating grains.
End Semester Examination Pattern: Full marks – 20
1) Performance (1 from sl no 1, 2): 7 marks
2) Performance (1 from sl no 3, 4): 7 marks
3) Performance (1 from sl no 5): 6 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Bendre A. (2009). A text Book of Practical Botany (Vol. 1 & 2). Rastogi Publication.
2) Pandey B.P. (2011). Modern Practical Botany (Vol. 1-3). S. Chand & Co.
Theory (4 credits)
Unit Course content Class
Sericulture:
1. Rearing and cocoon production; Rearing trays, Silk varieties in India, Mulberry Silkworm culture. 8
2. Life cycle of Bombyx mori. Structure of silk gland, Chemical nature of silk, diseases and pests and their
control in Bombyx mori.
Vermicomposting:
5
1. Principle, participating organisms, process and required physical conditions
I
Apiculture:
8
1. Types of Indian Honey bees, Methods of Rearing, Methods of Extraction and Preservation of Honey.
Shell fisheries:
1. Edible oysters farming and nutritional importance of oysters. 4
2. Chank fisheries.
3. Pearl culture.
Pisciculture:
1. Extensive, semi-intensive and intensive culture of fish.
2. Pen and cage culture; Polyculture. 10
3. Composite fish culture; Brood stock management.
4. Induced breeding of fish.
5. Freshwater prawn culture (Macrobrachium rosenbergii).
Ornamental fish culture and Aquarium management:
1. Common characters and sexual dimorphism of Fresh water and Marine Aquarium fishes such as Guppy,
6
II Molly, Sword tail, Gold fish, Angel fish, Blue morph, Anemone fish and Butterfly fish.
2. Management of aquarium..
Poultry:
1. Major fowl breeds. 5
2. Deep Litter System of rearing.
3. Common diseases of fowl and their control measures.
Animal Husbandry:
1. Types and distribution of cattle breeds (cow only) in India. 4
2. Merits and demerits of artificial cattle breeding.
50
Suggested Readings:
1) Ahsan, J. & Sinha, S. P. (2009). A Handbook on Economic Zoology. S. Chand & Company Ltd.
2) Shukla, G. S. & Upadhyay, V. B. (1998). Economic Zoology. 4th Ed. Rastogi Publication.
IBSMSASSEC302: Basics of Animal Breeding
Theory (4 credits)
Unit Course content Class
1. History of Animal Breeding.
7
2. Classification of breeds.
Economic characters of livestock and poultry and their importance. 4
I Selection, types of selection, response to selection and factors affecting it. 4
Bases of selection: individual, pedigree, family, sib, progeny and combined, indirect selection. 7
Theory (4 credits)
Unit Course content Class
Livestock Feeds:
4
Common feeds and fodder and their classification.
Energy Nutrition:
1. Energy sources, Measures of food energy and their application such as Gross Energy, Digestible Energy,
7
Metabolisable Energy, Net Energy, Total Digestible Nutrients.
2. Energy requirement for maintenance, growth, pregnancy and lactation in milk producing livestock.
Protein Nutrition:
I
1. Biological value of protein, Protein efficiency ratio, digestible crude protein.
2. Use of NPN in ruminants, bypass protein. 7
3. Protein requirements for maintenance, growth, pregnancy and lactation in milk producing livestock.
4. Improvement of poor quality roughages.
Mineral and Vitamin Nutrition:
1. Major and trace minerals, their sources, physiological functions and deficiency symptoms. 7
2. Role of vitamins, their sources and deficiency symptoms.
Feed Additives:
1. Role of probiotics, prebiotics, antibiotics, enzymes, antioxidants, buffers, mould inhibitors and methane
6
inhibitors.
2. Antinutritional and toxic factors present in livestock feed and fodder.
Storage & Conservation of Feeds and Fodders:
1. Storage of feeding redients. 6
2. Conservation of fodder through hay and silage making and their use in livestock feeding.
II ComputationofRation:
1. Balance dration, Formulation of ration and feeding of dairy cattle and buffaloes during different phases of 8
growth and production (young, pregnant, lactating and dry animals).
Formulation of ration and feeding of sheep, goat, pig and poultry. 5
50
Suggested Readings:
1) Animal Nutrition Paperback – by Peter McDonald, J.F.D. Greenhalgh, Dr CA Morgan, Dr R Edwards, Liam Sinclair
2) Advanced Animal Nutrition - D.V Reddy
3) Blaxter K. 1989. Energy Metabolism in Animal and Man. Cambridge Univ. Press.
4) Bondi A. 1987. Animal Nutrition. Wiley Inter Science.
5) Cramptan EW & Harris LE. 1969. Applied Animal Nutrition. WH Freeman.
6) Maynard LA, Loosli JK, Hintz HF & Warner RG. 1987. Animal Nutrition. McGraw-Hill.
7) McDonald P, Edwards RA & Greenhalgh JFD. 1995. Animal Nutrition. Longman.
8) Ponds WG, Church DC, Pond KR & Schoknecht PA. 2005. Basic Animal Nutrition and Feeding. Wiley Dreamtech India.
9) Singh UB. 1987. Advanced Animal Nutrition for Developing Countries. IndoVision.
Practical (2 credits)
1. Formulation of composition of concentrate ration.
2. Identification of different types of fodder.
3. Computation of ration for cattle and buffalo.
4. Identification of deficiency syndrome in cows and poultry birds.
End Semester Examination Pattern: Full marks – 20
1) Formulate the composition of a concentrate. (6)
2) Compute daily ration requirement for a cow/ buffalo according to the specifications. (10)
3) Identify the fodder. (4)
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Animal Nutrition Paperback – by Peter McDonald, JFD Greenhalgh, CA Morgan, R Edwards and Liam Sinclair
2) Advanced Animal Nutrition - D.V Reddy
Theory (4 credits)
Unit Course content Class
1. History of Genetics.
2. Mitosis versus Meiosis.
4
3. Chromosome numbers and types in livestock and poultry.
4. Overview of Mendelian principles.
1. Modified Mendelian inheritance.
4
2. Pleiotropy, Penetrance and expressivity
I 1. Multiple alleles; lethal genes;
6
2. Sex-linked, sex limited and sex influenced inheritance.
1. Gene interactions with examples.
6
2. Cytoplasmic inheritance.
Practical (2 credits)
1. Karyotype preparation
2. PCR-RFLP of DNA preparation.
3. Identification of mutant variety of Drosophila
4. Pedigree Analysis
End Semester Examination Pattern: Full marks – 20
1) Experiment on item number 1. (6)
2) Experiment on item number 2. (6)
3) Experiment on item number 3 and 4. (8)
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) GM Cooper and Robert E Hausman. The Cell: A Molecular Approach, V Edition, ASM Pressand Sinauer Associates.
2) G Karp. Cell and Molecular Biology: Concepts and Experiments. VI Edition. John Wiley and sons. Inc.
3) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
1. History of microbiology.
2. Types of microbes: Bacteria, viruses and fungi.
5
3. Difference between prokaryote and eukaryote.
4. Morphology of bacteria and ultrastructure of cell wall.
1. Non cellular microbes: characterization and structural composition of virions and their types (animal
viruses). 6
I
2. Isolation and characterization of bacteriophages and their types.
1. Common zoonotic bacterial and viral diseases: epidemiology and pathogenesis, pathogenicity, diagnosis,
7
prevention and control of Anthrax, Tuberculosis, Tetanus, Rabies, Flu and Nipah virus infection.
1. Introduction, classification, general properties of fungi;
2. Growth and Reproduction of fungi. 7
3. Fungal diseases caused by following genera: Candida and Cryptococcus; Aspergillus; Penicillium
Innate immunity:
1. Historical perspectives, cardinal signs of inflammation, types of immunity,
6
2. Cells and organs of the Immune system.
3. Anatomical barriers; Phagocytes and phagocytosis, Tissue and humoral factors
Adaptive immunity:
1. Concept of antibody and cell mediated immunity;
II 2. Antigenicity and immunogenicity, Adjuvants and haptens, Factors influencing immunogenicity,
3. Structure and functions of MHC molecules, 15
4. Immunoglogulin structure, types and function,
5. Mono- and polyclonal antibodies, antigen-antibody interaction (agglutination and precipitation),
6. Properties and functions of cytokines, Complement pathways and their regulation.
Clinical immunology:
1. Determination antigen-antibody interactions (ELISA, RIA, Immuno-fluorescence, FACS), 4
2. Hybridomatechnology: Monoclonal antibodies in therapeutics and diagnosis.
50
Suggested Readings:
1) Immunology by Kuby (Free man publication), 8th Edition.
2) Immunology and Immunotechnology by Ashim K. Chakravarty. (Oxford University Press)
3) Essentials of immunology by Roitt (Blackwell scientific publication), 3 rd Edition
4) Cellular & Molecular Immunology by Abbas & Lichtman, 5 th Edition.
5) S. Peter Borriello, Patrick R. Murray and Guido Funke. Topley and Wilson’s Microbiology and Microbial Infections,
Bacteriology Volumes I & II. Hodder Arnold
6) Glen Sonder J & Karen W Post 2005. Veterinary Microbiology: Bacterial and Fungal Agents of Animal
Diseases. Cold Spring Harbor Lab. Press.
7) Prescot LM, Harley JP & Klen DA. 2005. Microbiology. Wm. C. Brown Publ.
Practical (2 credits)
1. Simple staining, Gram staining, Endospore staining of Bacteria.
2. Analysis of Bacterial growth using colorimetric method.
3. Isolation of Bacteria from soil and water, Ppeparation of pure culture on LB agar plate.
4. Histological study of spleen, thymus and lymph nodes through stained slides/ photographs.
5. Determination of blood group and preparation of blood smear to study various types of white blood cells.
6. Determination of antigen-antibody interaction by colorimetric agglutination assay and Ouchterlony’s double immuno-
diffusion method.
7. Demonstration of ELISA.
End Semester Examination Pattern: Full marks – 20
1) Staining and identification (from item 1) - 5 marks
2) Any experiment (from item no. 2 tand 3) - 5 marks
3) Identification (from item no. 4) - 3 marks
4) Immunological assay (from item 5 & 6) - 7
5) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
6) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Biotechnolgy Practical Book by Vincent.
2) Glen Sonder J & Karen W Post 2005. Veterinary Microbiology: Bacterial and Fungal Agents of Animal Diseases. Cold
Spring Harbor Lab. Press.
3) Prescot LM, Harley JP & Klen DA. 2005. Microbiology. Wm. C. Brown Publ.
4) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
Carbon metabolism: Photosynthesis:
1. Light harvesting complexes;
2. Mechanisms of electron transport; 15
3. Photoprotective mechanisms;
4. CO2 fixation- C3, C4 and CAM pathways.
I
Respiration and photorespiration:
1. Citric acid cycle;
2. Plant mitochondrial electron transport and ATP synthesis; 10
3. Alternate oxidase;
4. Photorespiratory pathway.
Nitrogen metabolism:
1. Nitrate and ammonium assimilation; 10
2. Amino acid biosynthesis.
II
Plant Hormones:
1. Biosynthesis, storage, breakdown and transport; 15
2. Physiological effects and mechanisms of action.
50
Suggested Readings:
1) Plant Biochemistry by Hans-Walter Heldt; 3rd Edition.
2) Plant Physiology by Noggle & Fritz, 2nd edition
3) Plant Physiology by Hopkins; 2nd edition
4) Plant Physiology by Taiz & Zeiger
Practical (2 credits)
1. Assay of amylase activity in germinating rice.
2. Separation of plant pigments and amino acids by solvent extraction and paper chromatography.
3. Assay of plant hormones by spectrophotometric methods.
4. Extraction of reducing and non-reducing sugar from common crop plants.
End Semester Examination Pattern: Full marks – 20
1) Activity study (from item no. 1) - 7 marks
2) Estimation (from item no. 2 and 3) - 7 marks
3) Extraction (from item no. 4) – 6 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Modern Practical Botany by B.P. Pandey.
Theory (4 credits)
Unit Course content Class
Diagnosis of in born errors in metabolism:
1. Metabolic disorders of carbohydrates - galactosemia, glycogen storage disease, deficiency of glucose-6-
phosphate dehydrogenase, Hypoglycemia, Diabetes mellitus.
15
2. Metabolic disorder of lipid: Tay-Sachs disease, Nieman Pick disease.
3. Metabolic disorder of amino acid: phenylketonuria, alkaptonuria, Maple syrup urine disease.
I
4. Metabolic disorder of nucleotides: gout, Lesch -Nyhan Syndrome.
Diagnostic Enzymes:
1. Functional plasma enzymes, isozymes and diagnostic tests.
10
2. Enzyme pattern in health and diseases as is special reference to plasma lipase, amylase, alkaline and acid
phosphatase, cholinesterase, LDH and CPK.
Organ function test:
1. Liver function test (SGPT, SGOT, ALP, GGTP, Bilirubin) for Jaundice, Hepatitis.
2. Renal function test (creatine and inulin clearance). 12
II 3. Cardiac function test (ECG & EKG).
4. Brain function test (CT scan and MRI).
Diagnostic Imaging:
13
Basic principles and uses of X-rays, USG, MRI, PET, SPET.
50
Suggested Readings:
1) Notes on clinical chemistry - Whitby-Smith-Beekett-Walker. Balackwell Sci, Inc.
2) Clinical Biochemistry by Teitz.
Theory (4 credits)
Unit Course content Class
1. Introduction - Importance of rabbit for meat and fur production,
7
2. Rats, mice and guinea pigs, - Common breeds and strains.
1. System of housing.
5
2. Identification of body parts and handling, weighing, sexing and weaning of laboratory animals.
I 1. Marking for identification of laboratory animals for purpose of their individual recording. 5
1. Computation, feeding schedule of balanced diet for high breeding efficiency of laboratory animals. 4
1. Breeding - Age at maturity, litter size - Weaning – Feeding of growers – Selection of replacement stock. 4
1. Common diseases and their control measure. 10
50
Suggested Readings:
1) Van Vleck LD, Pollak EJ & Bltenacu EAB. 1987. Genetics for Animal Sciences. WH Freeman.
2) Handbook of Animal Husbandry. Indian Council of Agricultural Research.
Theory (4 credits)
Unit Course content Class
Introduction:
1. Basicconcepts: Phases of Development, Cell-cell interaction.
5
2. Differentiation and growth.
3. Differential gene expression.
Early Embryonic Development:
1. Gametogenesis, Spermatogenesis, Oogenesis.
I
2. Types of eggs, Egg membranes.
3. Fertilization (External and Internal): Changes in gametes, Blocks to polyspermy.
20
4. Planes and patterns of cleavage.
5. Types of Blastula; Fate maps (including Techniques).
6. Early development of frog and chick up to gastrulation.
7. Embryonic induction and organizers.
Late Embryonic Development:
1. Fate of Germ Layers.
2. Extra-embryonic membranes in birds. 10
3. Implantation of embryo in humans.
4. Placenta(Structure, types and functions of placenta).
Post Embryonic Development:
1. Development of brain and Eye in Vertebrate.
II 8
2. Regeneration: Modes of regeneration, epimorphosis, morphallaxis and compensatory regeneration (with
one example each).
Implications of Developmental Biology:
1. Teratogenesis: Teratogenic agents and their effects on embryonic development.
2. In vitro fertilization. 7
3. Stem cell (ESC).
4. Amniocentesis.
50
Suggested Readings:
1) Gilbert, S. F. (2010). Developmental Biology, IX Edition, Sinauer Associates, Inc., Publishers, Sunderland, USA
2) Carlson, B.M. (2014). Human Embryology and Developmental Biology. 5th Edn. Elsvier
3) Verma and Agarwal. Developmental Biology. S. Chand Pub. New Delhi.
Practical (2 credits)
1. Study of whole mounts and sections of developmental stages of frog through permanent slides: Cleavage stages, blastula,
gastrula, neurula, tail-bud stage, tadpole (external and internal gill stages).
2. Identification of whole mounts of developmental stages of chick through permanent slides: Primitive streak (13 to 18 hours),
21-33h, 36-48h and 72-96 hours of incubation (Hamilton and Hamburger stages)
3. Study and identification of different sections of placenta (through photo micrograph/ slides).
4. Study of developmental stages and life cycle of Drosophila from stock culture.
5. Project report on Drosophila culture/ chick embryo development.
End Semester Examination Pattern: Full marks – 20
1) Identification (from sl no. 1, 2 & 4): 10 marks
2) One question from sl no. 3: 6 marks
3) Project report (on item no. 5): 4 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
1. Computer fundamentals - programming languages in bioinformatics, role of supercomputers in biology.
4
Historical background.
2. Biological databases: NCBI-GenBANK, PDB database 8L+2T. 5
I
3. Scope of bioinformatics - genomics, proteomics, computer aided drug design (structure based and ligand
6
based approaches) and Systems Biology. Applications of bioinformatics.
4. Biological sequence alignments ; pair wise and multiple sequence alignments; familiarity with BLAST,
10
FASTA and CLUSTALW.
1. Primary and secondary data, Frequency distribution, Diagrammatic representation, Population and
5
sample, law of statistical regularity.
2. Mean, Median, Mode, Standard deviation and their simple problems. 5
II
3. Methods of sampling, Basic concepts of probability, Poisson distribution, Normal distribution. 7
50
Suggested Readings:
1) Bioinformatics: Sequence and Genome Analysis by David W. Mount, D.W. Cold Spring Harbor Laborator Press.
2) Bioinformatics and Functional Genomics by J. Pevsner, John Wiley & Sons, Inc. (New Jersey).
3) Biostatistics by K.S Negi
4) Statistical Methods Vol I and II by N. G. Das
Practical (2 credits)
1. Retrieval of amino acid and nucleotide sequence of a given query.
2. Alignment of amino acid/ nucleotide sequence and construction of phylogenetic tree.
3. Calculation of central tendency from a given set of grouped/ ungrouped data.
4. Probability-based simple problems.
End Semester Examination Pattern: Full marks – 20
1) Data mining from item 1 - 6 marks
2) Experiment (1 from item 2 ) - 8 marks
3) Statistical analysis (1 from item no 3 & 4) – 6 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Biostatistics by K.S Negi
2) Statistical Methods Vol I and II by N. G. Das
3) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
IBSMSASDSE501: Biology of Insecta
Theory (4 credits)
Unit Course content Class
1. General characteristics and classification of Insects up to Orders (Ruppert & Barnes, 1994).
4
2. Distribution and Success of Insects on the Earth.
General morphology of Insects:
1. External Features
2. Head: Eyes, Types of antennae, Mouth parts. 8
I 3. Thorax: Wings and wing articulation, Types of legs adapted to diverse habitat.
4. Abdominal appendages and genitalia.
Physiology of Insects:
1. Structure and physiology of Insect body systems - Integumentary, digestive, excretory, circulatory,
20
respiratory, endocrine, reproductive and nervous system.
2. Metamorphosis: Types and Neuroendocrine control of metamorphosis
Social life of Insects:
1. Group of social insects and their social life
6
2. Social organization and social behaviour of Termites.
3. Trophallaxis.
Insect Plant interaction:
II 1. Theory of co-evolution, role of allelochemicals in host plant mediation.
6
2. Host-plant selection by phytophagous Insects.
3. Life cycle, Damage and Management of any two major Insect pests.
Insects as Vectors:
1. Insects as mechanical and Biological vectors. 6
2. Brief discussion on House flies and Mosquitoes as important insect vector.
50
Suggested Readings:
1) Bernays, E.A. and Chapman, R.F. (1994). Host Selection by Phytophagous insects. Chapman and Hall.
2) Bigness, Roisin and Lo (2011). Biology of Termites: A Modern Synthesis. Springer.
3) Chapman, R.F. (2013). The Insects: Structure and function. Cambridge University Press.
4) Gullan, P.J. and Cranston, P.S. (2014). The Insects: An Outline of Entomology. Wiley Blackwell.
5) Hati, A.K. (2010). Medical Entomology. Allied Book Agency, Kolkata.
6) Richards O.W. and Davies R.G. (1977). Imms general text book of Entomology (Vol I) Structure, Physiology &
Development. Chapman & Hall.
7) Richards O.W. and Davies R.G. (1977). Imms general text book of Entomology (Vol II) Classification & Biology.
Chapman & Hall.
8) Wilson, E.O. (1971). The Insect Societies. Harvard University Press.
Practical (2 credits)
1. Identification (Systematic Position and specimen characters): One each from major Insect orders.
2. Study and identification of different kinds of antennae, legs and mouth parts of insects.
3. Morphological studies of various castes of Apis, Camponotus and Odontotermes.
4. Study of any three insect pests and their damages
5. Study of any three beneficial insects and their products
6. Study of life cycle of Mosquito and three major species of Mosquitoes.
7. Field visit to study insect diversity.
End Semester Examination Pattern: Full marks – 20
1) Identification (3 from item no. 1): 6 marks
2) Identification (3 from item no. 2 and 1 from item no. 3): 4 marks
3) Identification with importance (1 each from item no. 4, 5 & 6): 6 marks
4) Submission of life cycle stages of any one species of Mosquito: 4 marks
5) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
6) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ghosh, K.C. and Manna, B. (2015): Practical Zoology, New Central Book Agency, Kolkata
2) Lal, S.S. (2016). Practical Zoology- Inertebrate. Rastogi Publication.
3) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
IBSMSASDSE502: Ethology and Chronobiology
Theory (4 credits)
Unit Course content Class
Introduction to Ethology,
1. Proximate and ultimate reasoning, 3
2. Development of Behaviour,
1. Social communication and Dominance,
2. Approaches and Methods in study of Behaviour, 6
I 3. Altruism and evolution group selection, kin selection, reciprocal altruism.
Learning, Neural basis of learning, memory, cognition, sleep and arousal. 6
1. Mating system, parental investment and reproductive success,
10
2. Aggressive behaviour, Habitat selection and Optimality in foraging.
Introductionto Chronobiology:
1. Historical developments in chronobiology;
10
2. Biological oscillation: the concept of Average, amplitude, phase and period
3. Adaptive significance of biological clocks
Biological Rhythm:
II
1. Types and characteristics of biological rhythms: Short- and Long- term rhythms; Circadian rhythms;
Tidal rhythms and Lunar rhythms;
15
2. Concept of synchronization and masking; Photic and non-photic zeitgebers; Circannual rhythms;
3. Photoperiod and regulation of seasonal reproduction of vertebrates;
4. Role of melatonin
50
Suggested Readings:
1. Alcock, J. (2001). Animal Behaviour: An Evolutionary Approach. , Sinauer Associate Inc., USA.
2. Chattopadhyay, S. (2012). Life: Evolution, Adaptation, Ethology. 3rd Edn. Books and Allied, Kolkata.
3. Dujatkin, L.A. (2014). Principles of Animal Behaviour. 3rd Edn. W.W.Norton and Co.
4. Dunlap, J.C., Loros, J.J. and De Coursey, J.P. (2004). Chronobiology: Bioloigcal Time keeping. Sinauer Associates, Inc.
Publishers, Sunderland, MA, USA
Practical (2 credits)
1. Study of nests and nesting habits of the birds and social insects.
2. Study of the behavioral responses of woodlice to dry and humid conditions.
3. Study of geotaxis behaviour in earthworm.
4. Study of photo taxis behaviour in insect larvae.
5. Visit to Forest/ Wildlife Sanctuary/ Biodiversity Park/ Zoological Park to study behavioural activities of animals and
prepare a short report.
6. Study and actogram construction of locomotor activity of suitable animal models.
7. Study of circadian functions in humans (daily eating, sleep and temperature patterns).
End Semester Examination Pattern: Full marks – 20
1) Performance from sl no 1 to 4: 8 marks
2) Performance from sl. No. 6: 7 marks
3) Field report: 5
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Alcock, J. (2001). Animal Behaviour: An Evolutionary Approach. , Sinauer Associate Inc., USA.
2) Dujatkin, L.A. (2014). Principles of Animal Behaviour. 3rd Edn. W.W.Norton and Co.
IBSMSASC601: Adaptation and Evolution of Animals
Theory (4 credits)
Unit Course content Class
Life’s Beginnings:
1. Chemogeny, RNA world, Origin of Life. 5
2. Evolution of eukaryotes, Experiments supporting biogeny.
Theories of evolution:
6
1. Historical review of Evolutionary concepts: Lamarckism, Darwinism and Neo Darwinism.
Major events in history of life:
I 1. Geological time scale, Fossil records of Hominids (from Australopithecus to Homo sapiens). 6
2. Eevolution of horse.
3. Neutral theory of molecular evolution, Molecular clock
Speciation:
1. Species concept and modes of speciation. 8
2. Isolating mechanisms, Sexual selection.
3. Adaptive radiation/macroevolution (exemplified by Galapagos finches)
Processes of Evolutionary Change:
1. Organic variations; Isolating Mechanisms; Natural selection (Example: Industrial melanism). 10
2. Types of natural selection (Directional, Stabilizing, Disruptive), Artificial selection.
3. Hardy-Weinberg principle
Phylogenesis:
1. Phylogenetic trees, Construction & interpretation of Phylogenetic tree using parsimony. 4
2. Convergent & Divergent evolution.
II 3. Co-evolution.
Extinction:
1. Mass extinction (Causes, Names of five major extinctions, K-T extinction in detail). 4
2. Role of extinction in evolution.
Adaptive strategies of animals:
1. Adaptive features (morphological and physiological) of aquatic vertebrates (fish and whale), adaptive 7
features of desert animals (reptiles and mammals).
2. Adaptive significance of Coloration and Mimicry in animal world.
50
Suggested Readings:
1) Ridley, M. (2004). Evolution. III Edition. Blackwell Publishing.
2) Barton, N. H., Briggs, D. E. G., Eisen, J. A., Goldstein, D. B. and Patel, N. H. (2007). Evolution. Cold Spring, Harbour
Laboratory Press.
3) Hall, B. K. and Hallgrimsson, B. (2008). Evolution. IV Edition. Jones and Bartlett Publishers.
4) Campbell, N. A. and Reece J. B. (2011). Biology. IX Edition, Pearson, Benjamin, Cummings.
Practical (2 credits)
1) Study of fossils from models/pictures.
2) Study of homology and analogy from suitable specimens.
3) Study and verification of Hardy-Weinberg Law by chi-square analysis.
4) Graphical representation and interpretation of data of height /weight of a sample of 100 humans relation to the age and
sex.
End Semester Examination Pattern: Full marks – 20
1) Identification of fossils/ from models/photographic plates (any two): 6
2) Identification of homology/analogy using models/photographic plates (any two): 6
3) Problems based on Hardy Weinberg Law and verification of data by Chi Square test: 8
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ridley, M. (2004). Evolution. III Edition. Blackwell Publishing.
2) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
IBSMSASC602: Animal Biotechnology
Theory (4 credits)
Unit Course content Class
1. Restriction modification system- construction of restriction map of E. coli, vectors plasmids, cosmids,
8
phagemids, definition of genomic DNA library and cDNA library.
2. Gene cloning: Basic concept of cloning and expression of eukaryotic gene in prokaryotic system (example
I 10
insulin, growth hormone), genomic and cDNA library construction strategies.
3. Techniques of animal biotechnology: Southern blot, northern blot and western blot techniques,
7
polymerase Chain reaction –DNA synthesis and amplification in vitro, Steps and enzymes of PCR.
1. Transgenesis and transgenic organisms: Gene delivery techniques in plant and animal, transgenic
6
plants (rice and tomato), transgenic animals (sheep, goat and mice)
2. Animal Cell Culture: Introduction to basic tissue culture techniques; chemically defined and serum free
media; animal cell culture, their maintenance and preservation; various types of cultures suspension
cultures, continuous flow cultures, immobilized cultures; somatic cell fusion; cell cultures as a source of 10
II
valuable products; organ cultures.
Practical (2 credits)
1. Restriction digestion of a given DNA sample and determination of the digested DNA by gel electrophoresis.
2. Transformation of a recombinant plasmid in E. coli.
3. Demonstration of PCR.
4. Western blotting of a given animal protein.
End Semester Examination Pattern: Full marks – 20
1) Experiment (from item 1) - 8 marks
2) Experiment (from item 2) - 5 marks
3) Experiment ( from item 4) - 7 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ranga M.M. (2002) Animal Biotechnology. Agrobios India Limited,
2) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
1. Basic concept: Parasitism, Parasite, Parasitoid and Vectors (mechanical and biological vector). Host
10
parasite relationship, Effect of parasitism in the host, sources of parasitic infections
2. Protozoa: Study of Morphology, Life Cycle, Pathogenicity of Amoeboid group and Flagellates -
I 7
Intestinal, Hemoflagellates, Sporozoa and Microspora
3. Trematodes: Study of Morphology, Life Cycle, Pathogenicity of Schistosoma haematobium,
7
S.mansoni, S.japonicum, Fasciola hepatica.
1. Cestodes: Study of Morphology, Life Cycle, Pathogenicity of Intestinal Tapeworms and extra intestinal
II 8
tape worm.
2. Nematodes: Study of Morphology, Life Cycle, Pathogenicity of Intestinal, Blood and tissues Nematodes. 8
3. Medical parasitology: Diagnosis, Prophylaxis and Treatment of Entamoeba histolytica, Plasmodium
vivax, Taenia solium, Ascaris lumbricoides, Wuchereria bancrofti, Trypanosoma 14
4. Mosquitoes, Sandflies, Ratflea, Houseflies.
50
Suggested Readings:
1) General parasitology - Thomas C Cheng
2) Human parasitology - Burton J Bogtish.
3) Medical parasitology - Markell and Voges
4) Foundation of parasitology - Roberts and Janovy
5) Molecular Parasitology by Marr
Practical (2 credits)
1. Gut content analysis of Toad, cockroach, goat and chicken.
2. Histological stating of goat/ chicken parasite.
3. Identification of different parasites (permanent slide) commonly found in India.
End Semester Examination Pattern: Full marks – 20
1) Dissection and exploration from item 1 - 5 marks
2) Histology and staining from item 2 - 7 marks
3) Identification (4 from item no. 3) - 8 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) General parasitology - Thomas C Cheng
2) Human parasitology - Burton J Bogtish.
3) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
Theory (4 credits)
Unit Course content Class
Aquatic Biomes:
Brief introduction of the aquatic biomes: Freshwater ecosystem (lakes, wetlands, streams and rivers), 10
estuaries, intertidal zones, oceanic pelagic zone, marine benthic zone and coral reefs.
Freshwater Biology of Lakes:
I
1. Origin and classification, Lake as an Ecosystem, Lake morphometry.
2. Physico-chemical Characteristics: Light, Temperature, Thermal stratification, Dissolved Solids, 15
Carbonate, Bicarbonates, Phosphates, Nitrates, Turbidity, Dissolved gases (Oxygen, Carbon dioxide).
3. Nutrient Cycles in Lakes - Nitrogen, Sulphur and Phosphorous.
Freshwater Biology of Streams:
1. Different stages of stream development.
7
2. Physico-chemical environment.
3. Adaptation of hill-stream fishes.
Marine Biology:
1. Salinity and density of Sea water
2. Continental shelf 8
II 3. Adaptations of deep sea organisms
4. Coral reefs, Sea weeds.
Management of Aquatic Resources:
1. Causes of pollution: Agricultural, Industrial, Sewage, Thermal and Oil spills.
2. Eutrophication
10
3. Management and conservation (legislations).
4. Sewage treatment.
5. Water quality assessment - BOD and COD.
50
Suggested Readings:
1) Ananthakrishnan T.N. (1989): Bioresources Ecology. 3 rd Ed. Oxford & IBH Pub. Co.
2) Horne A.J. and Goldman C.R. (1994): Limnology. 2 nd Ed. McGraw-Hill Education.
3) Odum E. and Barrett G.W. (2005): Fundamentals of Ecology. 5th Ed. Brooks & Cole.
4) Pawlowski L (1982): Physicochemical Methods for Water and Wastewater Treatment. 1st Ed. Elsevier
5) Wetzel R.G. (2001): Limnology: Lake and River Ecosystems. 3rd Ed. Academic Press.
6) Trivedi P.K. and Goyal R.K. (1986): Chemical and biological methods for water pollution studies. Environmental Publ.
7) Welch P.S. (2018): Limnology. Vols. I-II. Franklin Classics.
Practical (2 credits)
1. Identify the important macrophytes, phytoplanktons and zooplanktons present in a lake ecosystem.
2. Determine the amount of Turbidity/ transparency, Dissolved Oxygen, Free Carbon dioxide, Alkalinity (carbonates &
bicarbonates) in water collected from a nearby lake/ water body.
3. Instruments used in limnology (Secchi disc, Van Dorn Bottle, Conductivity meter, Turbidity meter, PONAR grab sampler)
and their significance.
4. A Project Report on a visit to a Sewage treatment plant/ Marine bioreserve/ Fisheries Institutes.
End Semester Examination Pattern: Full marks – 20
1) Identification (3 from item no. 1): 6 marks
2) Estimation (1 from item no. 2): 8 marks
3) Instruments (2 from item no. 3): 4 marks
4) Field report: 2 marks
5) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
6) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Ghosh, K.C. and Manna, B. (2015): Practical Zoology, New Central Book Agency, Kolkata
2) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
3) Trivedi P.K. and Goyal R.K. (1986): Chemical and biological methods for water pollution studies. Environmental Publ.
4) Standard Analytical Procedures for Water Analysis (May, 1999). Hydrology Project. Government of India & Netherlands.
M.Sc.
IBSMSASC701: Animal Bioresources
Theory (4 credits)
Unit Course content Class
Biosystematics and Taxonomy:
1. Principles of taxonomy as applied to the systematics and classification of the animal kingdom.
2. Concepts about Structural, Numerical, Molecular and Biochemical taxonomy. 10
3. Basics of Phenetics and Cladistics.
4. Species Concept: Biological, Evolutionary and Phylogenic.
I
Classification and evolution of different Animal groups:
1. Outline classification and interrelationship amongst the major Invertebrate phyla.
2. Larval forms of Invertebrates and their evolutionary significance. 20
3. Outline classification of Protochordates and Chordates.
4. Origin and evolution of different chordates groups.
Invertebrate Structure and Function:
1. Biological and medicinal importance of sponges.
2. Evolution of symmetry, coelom and metamerism in Invertebrates.
3. Invertebrate locomotion: Amoeba, Earthworm, Butterfly, Octopus and Starfish. 15
4. Excretory organ and excretion: Flame cell, Nephridia, Malpighian tubules and Renal glands.
5. Organization of nervous system: nerve net, central and peripheral nervous system, invertebrate brain.
6. Thermoregulation and Osmoregulation in different invertebrate groups
II Chordate Structure and Function:
1. Ultrastructure and role of notochord and endostyle in Amphioxus and Ascidia with evolutionary
significance.
2. Integumentary system and its derivatives.
15
3. Evolution of vertebrate heart and portal system.
4. Evolution of urinogenital system in vertebrate series.
5. Animal migration and mechanism of navigation.
6. Metamorphosis: progressive and retrogressive, neoteny and paedomorphosis
60
Suggested Readings:
1) Chatterjee, A. & Chakraborty, C. (2015). Text Book of Zoology. Nirmala Library
2) Ganguly, B. B., Sinha, K. S. & Adhikari, S. (2012). Biology of Animals. Vol. I. New Central Book Agency.
3) Jordan, E. L. & Verma, P. S. (2006). Invertebrate Zoology. S. Chand & Company Ltd.
4) Jordan, E. L. & Verma, P. S. (2003). Chordate Zoology. S. Chand & Company Ltd.
5) Kardong, K. V. (2002). Vertebrates: Comparative anatomy, function evolution. Tata McGraw Hill.
6) Kent, G. C. & Carr, R.K. (2001). Comparative anatomy of the Vertebrates. 9th Ed. Mc Graw Hill.
7) Kotpal, R.L. (2019). Modern Text Book of Zoology: Invertebrates. 11 th Ed. Rastogi Publications.
8) Kotpal, R. L. (2019). Modern Text Book of Zoology: Vertebrates. 4 th Ed. Rastogi Publications.
9) Nelson, J. S. (2006): Fishes of the World, 4th Ed. Wiley.
10) Romer, A. S. & Parsons, T. S. (1986).The vertebrate body. 6 th Ed. Saunders College Pub.
11) Sinha, K. S., Adhikari, S., Ganguly, B. B. & Goswami B. (2012). Biology of Animals. Vol. II. New Central Book Agency.
12) Young, J. Z. (1981). The Life of Vertebrates. 3 rd Ed. Oxford University Press.
Theory (4 credits)
Unit Course content Class
Cellular transportation
1. Diffusion and osmosis across membranes, ion channels, active transport, membrane pumps 5
2. Mechanism of sorting and regulation of intracellular transport.
I Cell-cell communication
1. General principles of cell communication
7
2. Cell adhesion and roles of different adhesion molecules, gap junctions, extracellular matrix and its
components.
Cell signaling
1. Receptors and their types, Structure and function of cell surface receptors
2. Signal transduction pathways, signaling through G-protein coupled receptors and small intracellular 8
mediators,
3. Enzyme-Coupled Cell-Surface receptors, second messengers, regulation of signaling pathways.
Cell Cycle& Cell Division:
1. Different phases of Cell cycle
2. Cell Cycle checkpoints, Regulation of eukaryotic cell cycle & Role of MPF 10
3. Mitosis and meiosis; Regulation of cell division
4. Role of cytoskeleton in cell division and control of Spindle fiber synthesis.
Structure of DNA, Genes and genomic organization:
1. DNA structure, features of the double helix, various forms of DNA.
2. Definition of a gene, organization of genes in viruses, bacteria, eukaryotes. Nucleosome structure and
7
packaging of DNA into higher order structures.
3. Supercoiling of DNA and its importance, topoisomerases – their inhibitors and application in medicine.
4. DNA as the genetic material.
Central Dogma
1. Replication of DNA; DNA polymerases, enzymes and proteins in DNA replication, various modes of
replication.
2. Recombination and transposition of DNA, Homologous and site-specific recombination, transposition,
different classes of transposable elements, importance of transposable elements in horizontal transfer of 8
genes and evolution.
II
3. Molecular basis of mutations and Various modes of DNA repair, Replication errors and mismatch repair
system, repair of DNA damage, direct repair, base excision repair, nucleotide excision repair,
recombination repair, SOS Repair.
Transcription and translation
1. Prokaryotic and eukaryotic promoter, mechanism of transcription, various types of RNA. Control of
Transcription, Operon concept.
7
2. Genetic and its properties, Wobble biochemical reaction involved in amino acylation, mechanism of
translation in pro- and eukaryotes.
Molecular biology of Cancer and programmed cell death
1. Properties of benign and malignant tumors, Signaling pathways and mechanism of different oncogene
8
activation in different cancer, anticancer drugs
2. Activation of extrinsic, intrinsic and perforin-granzyme pathway of cell death.
60
Suggested Readings:
1) Alberts, B. et al. (2008). Molecular Biology of the Cell. 5th Ed. Garland Publishing House.
2) Brooker. (2001). Genetics. McGraw-Hill.
3) Brown, T. A. (2002). Genomes 2. Wilely-Liss. Clark, D. P. (2005). Molecular Biology.Elsevier.
4) Clark, D.P. (2009). Understanding the Genetic Revolution. Academic Press.
5) Cooper, G. M. (2004). The Cell. 3rd edn. ASM Press.
6) Hancock, J.T. (2008). Molecular Genetics. Viva Book Private Ltd.
7) Hartl, D.L. & Jones, E.W. (1998). Genetics, Principles and analysis. (4th ed). Blackwell Scientific, Oxford.
8) Hartl, D. L. & Jones, E. W. (2005). Genetics: analysis of genes and genomes. 6th ed. Jones and Bartlett Publ.
9) Hartl, D. L. & Jones, E. W. (2006). Essential Genetics: a genomics perspective (4th ed.). Jones and Bartlett Publ.
10) Hartwell et al. (2001) Genetics: From genes to Genomes. McGraw Hill.
11) Harvey, L. (2004). Molecular cell Biology. 5th ed. W.H.Freeman.
12) Karp, G. (2008). Cell and Molecular Biology: Concepts and experiments. 5th edn., JohnWiley.
13) Cell Biology by Pollard.
14) Molecular Biology of the gene by Watson.
Theory (4 credits)
Unit Course content Class
Biochemistry of Carbohydrates:
1. Structure, classification and function of mono-, di- and polysaccharides.
I 2. Open and ring conformations, Concept of maturoration and anomeric effect, glycosidic linkages. 8
3. Catabolism (glycolysis, pentose phosphate pathaway, TCA cycle, ETC& Oxidative phosphorylation)
and anabolism (gluconeogenesis and uronic acid pathway) of glucose.
Biochemistry of Lipids:
1. Structure, classification and function of Lipids.
6
2. Structure and nomenclature of fatty acids, synthesis and oxidation (beta, alpha and omega) of even and
odd chain fatty acids.
Biochemistry of amino acids and proteins:
1. Structure, classification and function of amino acids and Proteins;
2. Ramachandran plot; Concept of post-translational modification, protein folding and trafficking;
10
3. Classification of Enzymes, Enzyme kinetics and inhibition,
4. Mechanism of action of Lysozyme, Ribonuclease A, Carboxypeptidase and Chymotrypsin. allosteric
regulation (MWC and KNF model).
Biochemistry of nucleic acids:
1. Structure, classification and function of DNA and RNA.
6
2. DNA topology, de novo and salvage synthesis of nucleotides;
3. Degradation of purines and pyrimidines.
Innate immunity:
1. Physicochemical barriers,
6
2. Mechanism of pathogen recognition and antigen presentation,
3. Toll-like receptors and their signaling pathways.
Adaptive immunity:
1. Structure and function of antibody molecules.
II 2. Generation of antibody diversity, monoclonal antibodies, MHC molecules, antigen processing and 12
presentation,
3. Activation and differentiation of B and T cells, B and T cell receptors.
1. Complement activation pathways and their regulation,
6
2. Cell-mediated effector functions, hypersensitivity and autoimmunity.
1. Kinetics of antigen-antibody interactions (agglutination and precipitation),
6
2. Determination of antigen-antibody interaction using immunofluorescence, western blotting and FACS.
60
Suggested Readings:
1) Lehninger’s Principles of Biochemistry by Nelson & Cox; 7 th Edition.
2) Biochemistry by Voet & Voet; 3rd Edition
3) Biochemistry by Stryer; 5th Edition
3) Principle of Biochemistry by Horton, Moran, Perry and Rawn, 5 th Edition
4) Textbook of Biochemistry by Thomas M. Devlin; 5 th Edition
5) Immunology by Kuby (Free man publication), 8 th Edition.
6) Immunology and Immunotechnology by Ashim K. Chakravarty (Oxford university Press)
7) Essentials of immunology by Roitt (Blackwell scientific publication), 3rd Edition
8) Cellular & Molecular Immunology by Abbas & Lichtman, 5 th Edition.
Theory (4 credits)
Unit Course content Class
Factors of the environment :
1. Concept of limiting factors, Biotic factors: effects of predators, parasites and symbionts. 7
2. Abiotic factors: effects of temperature, moisture, light and fire.
Habitat and Niche:
1. Concept of habitat and niche; niche width and overlap; fundamental and realized niche. 7
2. Resource partitioning; character displacement
Population dynamics:
1. Characteristics of a population; population growth curves. 6
I 2. Population regulation; life history strategies (r and K selection).
3. Concept of metapopulation – demes and dispersal, interdemic extinctions, age structured populations.
Ecosystem Ecology :
1. Ecosystem structure; ecosystem function; energy flow and mineral cycling (C,N,P); primary production
and decomposition. 10
2. Structure and function of some Indian ecosystems: terrestrial (forest, grassland) and aquatic (fresh water,
marine, eustarine).
3. Bioremediation.
Communities and biodiversity:
1. Community organization and structure, relative abundance, species diversity, diversity indices and 8
ecosystem development.
2. Ecological succession and climax community.
Species Interactions:
5
1. Types of interactions, interspecific competition, herbivory, carnivory, pollination, symbiosis.
Biogeography:
II 1. Major terrestrial biomes; theory of island biogeography. 7
2. Biogeographical zones of India
Conservation Biology:
1. Conservation of natural resources and wildlife, in situ and ex situ conservations, Red Data Book, IUCN
red list categories, Endangered and Endemic species of India. 10
2. India as a mega-diversity nation; flora & fauna of other Megadiversity countries; hot-spots of
biodiversity; wealth of Indian hot-spots.
3. In-situ and Ex-situ Conservation, Biosphere Reserve
60
Suggested Readings:
1) Kormondy, E. J. (2002). Concepts of Ecology. 4th Indian Reprint, Pearson Education.
2) Krebs, C. J. (2001). Ecology. Benjamin Cummings.
3) Krebs, C.J. (2016).Ecology: The Experimental Analysis of Distribution and Abundance. Pearson Education Limited,
Noida, India. 13. Molles, Jr. M.C. (2005). Ecology: Concepts and Applications. 3rd Ed. McGraw- Hill.
4) Odum, E. P. & Barret, G. W. (2005). Fundamentals of Ecology. 5th Ed. Thompson Brooks/Cole.
5) Ricklefs, R. E. & Miller, G. L. (2000). Ecology. 4th Ed. W. H. Freeman & Company.
6) Russel, P.J., Wolfe, L. S., Hertz, P.E. Starr, C. & McMillan, B. (2008). Ecology.
7) Brooks/Cole. Saharia, V. B. (1998). Wildlife in India. Natraj Publishers.
8) Smith, R. L. & Smith, T. M. (2001). Ecology and Field Biology. Benjamin Cummings.
9) Pearson Education. Smith, T. M & Smith, R. L. (2006). Elements of Ecology. 6th Ed. Pearson Education.
10) Stiling, P. (2009). Ecology- Theories and Applications. 4th Ed. Prentice Hall of India.
11) Cunningham, W. P. & Cunningham, M. A., (2007). Principles of Environmental Science: Inquiry & Applications. 4th
ed. Tata McGraw-Hill Company.
IBSMSASC705: Practical 1
Practical (4 credits)
Animal Bioresources:
1. Identification: From the major animal groups.
2. Dissection: Male and female Reproductive system of Cockroach.
3. Dissection: Afferent branchial System and IXth & Xth Cranial Nerve of Carp, Vth & VIIth Cranial Nerve of Fowl.
Practical (4 credits)
Biochemistry and Immunology:
1. Estimation of cellular micromolecules (glucose, amino acid) and macromolecules (DNA, RNA and protein) using
spectrophotometric methods.
2. Determination of Km and Vmax of alpha-amylase.
3. Isolation and staining of peritoneal macrophages from mice/ rat.
4. Development of antibody against a given antigen in mice/ rabbit model and study of the antigen-antibody interaction using
western blotting.
Theory (4 credits)
Unit Course content Class
Digestive System:
1. Detailed structure of Gastro intestinal tract, associated digestive glands and their secretions,
5
2. Digestive enzymes and regulations of their secretion in mammals.
3. Mechanism of digestion and absorption of different food materials.
Respiratory System:
1. Different respiratory organs,
2. Mechanism of breathing and its regulation in mammals, 5
3. Respiratory pigments,
4. Metabolic pathways - Glycolysis, TCA Cycle, Oxidative phosphorylation.
Blood Vascular System :
1. Various components of circulatory system,
I
2. Blood: Composition and function of blood, Blood volume, Blood coagulation, Haematopoiesis, Blood 5
pressure, Blood groups, Transport of O2 and CO2 , Oxygen regulation in mammals,
3. Physiological types of hearts, Cardiac cycle and its regulation.
Nervous System:
1. Structure of a typical neuron,
5
2. Conduction of nerve impulse, Resting potential,
3. Synaptic transmission and Neurotransmitters.
Muscular System:
1. Ultra structure and chemical composition of skeletal muscle,
5
2. Mechanism of muscle contraction,
3. Energy supply and heat production during muscle contraction.
Excretory System:
1. Different excretory products,
5
2. Structure of kidney and a nephron,
3. Formation of urine and its regulation and excretion, Acid-base balance, Homeostasis.
Animal tissues:
4
Classification, Nomenclature and characteristics.
Histophysiology:
8
Gastrointestinal tract; Liver; Pancreas; Kidney; Adrenal; Pituitary; Testis; Ovary; Thyroid.
Basic principles of fixation and general account of fixatives for a light and electron microscopic studies. 5
II Basic principles of staining; biological dyes:
5
Chemistry and sources of a. Haematoxylin b. Eosin c. Carmine d. Basic fuchsin e. Acid fuchsin.
Basic principles and theoretical basis:
a. PASchiff reaction b. Feulgen reaction c. Metachromasia d. Histochemical techniques for acid and alkaline 6
phosphatase.
Basic principles of immunocytochemistry. 2
60
Suggested Readings:
1) Guyton, A.C. & Hall, J.E. (2006). Textbook of Medical Physiology. XI Edn. Hercourt Asia PTE Ltd. W.B. Saunders
Company.
2) Hill, Wyese and Anderson (2012). Animal Physiology. 3rd Edn. SineuerAssociaes
3) Rastogi, S.C. (2007). Essentials of Animal Physiology4th Edn. New Age Pub., N. Delhi
4) Kent, G.C. and Carr R.K. (2000).Comparative Anatomy of the Vertebrates. IX Edition.
5) Saxena, R.K. & Saxena, S.C. (2008): Comparative Anatomy of Vertebrates, Viva Books Pvt. Ltd.
6) Bloom & Fawcett Textbook of Histology: A Textbook of Histology
Theory (4 credits)
Unit Course content Class
Mendelian principles:
2
1. Dominance, segregation, independent assortment.
Concept of gene:
1. Allele, multiple alleles, pseudoallele. 4
2. Complementation tests
Extensions of Mendelian principles :
1. Codominance, incomplete dominance, gene interactions, pleiotropy, genomic imprinting, penetrance
and expressivity, phenocopy. 6
2. Linkage and crossing over, sex linkage.
I 3. Sex limited and sex influenced characters.
Gene mapping methods :
1. Linkage maps. 8
2. Tetrad analysis, mapping with molecular markers, mapping using somatic cell hybrids.
Extra chromosomal inheritance:
1. Inheritance of Mitochondrial and chloroplast genes. 4
2. Maternal inheritance.
Human genetics:
1. Pedigree analysis. 6
2. Lod score for linkage testing, karyotypes and genetic disorders.
Basic concepts of development:
1. Concepts of Potency, commitment, specification, induction, competence, determination and 5
differentiation.
II
Gametogenesis:
1. Process of production of sperm and ovum. 5
2. Basics of hormonal regulation in gametogenesis.
Fertilization and early development:
1. Cell surface molecules in sperm-egg recognition in animals; Process of fertilization in sea archin,
amphibians and mammals. 5
2. Prevention of polyspermy.
3. Gastrulation and formation of germ layers in frog and Chick.
Morphogenesis and organogenesis in animals :
1. Cell aggregation and differentiation in Dictyostelium.
2. Axes and pattern formation in Drosophila. 8
3. Vulva formation in Caenorhabditis elegans.
4. Eye lens induction in chick, limb development and regeneration in amphibians.
Sex determination:
5
1. Molecular basis of sex determination in Drosophila and Human.
60
Suggested Readings:
1) Arias, A. M. & Stewart, A. (2002). Molecular Priciples of Animal Development. Balinsky (1981).
2) Embryology. Thompson Brooks Cole (India) Pte, Ltd. Browder, L. W. (1984). Developmental Biology. 2nd ed., CBS
College Publishing.
3) Carlson, B. M. (1999). Patten’s Foundations in Embryology. 6th ed. McGraw Hill.
4) Gilbert S. F. (1999). Embryology. Sinauer Associates, Sunderland, Massachusetts.
5) Gillbert, S.F. (2006). Developmental Biology. 8th ed. Sinauer Associates.
6) Kalthoff, K., (2001). Analysis of Biological Development. 2 ed. McGraw Hill.
7) Snustad, D. P. & Simmons. M. J. (2004). Principles of Genetics. 4th ed. John Wiley and Sons.
Theory (4 credits)
Unit Course content Class
1. Taxonomy, morphology, lifecycle, pathogensis, diagnosis and control of protozoan (Leishmania spp.,
Plasmodium spp., Entamoeabae histolystica, Giardia lamblia, Trypanosoma spp.), cestode (Taenia spp.,
16
Hymenolepis spp., Diphyllobothrium latum), nematode (Wuchereria bancrofti, Ascaris spp.,
Ancylostoma duodenale, Trichinella spp.) and trematode (Fasciola hepatica, Schistosoma mansoni).
2. Cellular and molecular mechanism of host-parasite and host-vector interactions in leishmaniasis and
I 4
malaria.
3. Mechanism of antigenic variation in malaria, trypanosomiasis and giardiasis. 6
Theory (4 credits)
Unit Course content Class
1. Demographic distribution of livestock and role in Indian economy.
5
2. Problems and prospects of livestock industry in India.
1. Common animal husbandry terms. (glossary)
2. Body conformation and identification. 6
3. Transportation of livestock and wild or zoo animals.
I 1. Common farm management practices including disinfection, isolation, quarantine and disposal of carcass. 7
1. Introduction to methods of drug administration.
5
2. Common vices of animals (Cattle, Buffalo, Sheep, Goat,), their prevention and care.
1. Organic livestock production.
2. Judging and BCS for body parts of livestock. 7
3. Culling of animals. Selection and purchase of livestock.
1. Domestication of animals.
2. History of Animal Breeding. 7
3. Type of selection and their genetic consequences.
1. Components of variation, Heritability and Repeatability.
8
2. Response to selection and its prediction and improvement of response to selection.
II
1. Theoretical aspects of accuracy and efficiency of different base of selection.
7
2. Selection of several traits. Bases of selection.
1. Prediction of breeding value using different criteria.
2. Combined Selection. 8
3. Correlated response to selection and efficiency of indirect selection.
60
Suggested Readings:
1) Livestock production and management. NSR Sastry and CK Thomas.
2) Falconer DS & Mackay TFC. An Introduction to Quantitative Genetics. Longman.
3) Jain JP. 1982. Statistical Techniques in Quantitative Genetics. Tata McGrawHill.
4) Pirchner F. 1981. Population Genetics in Animal Breeding. S. Chand.
IBSMSASC805: Practical 3
Practical (4 Credits)
Advance Animal Physiology and Histochemistry:
1. Determination of Pancreatic protease activity in rats.
2. Identification of stages of an estrous cycle in rat.
3. Hormonal control of pigment dispersion in cat fish.
4. Colorimetric estimation of ovarian ascorbic acid.
5. Collection, Fixation, Dehydration, Infiltration and Paraffin Embedding of Different tissues/ Glands/ Organs of White
Rat.
6. Microtomy of Paraffin sections.
7. Haematoxylin-eosin staining of paraffin sections.
8. Identification of tissue sections.
9. Histochemical demonstrations of: a. 1,2 glycol group containing substances in liver, b. Deoxyribonuceic acids in
liver, c. Alkaline phosphatase activity in kidney.
IBSMSASC806: Practical 4
Practical (4 Credits)
Parasitology and Microbiology:
1. Collection, histology and staining of goat/ chicken/ fish parasites.
2. Determination of parasite infection (load) in an infected animal.
3. Determination of intestinal and extra-intestinal parasites of laboratory animals.
4. Simple staining, Grams staining, Acid fast staining and Endospore staining.
5. Identification of parasites and microbes from slides.
6. Isolation of Plasmid DNA from Bacterial isolate.
Theory (4 credits)
Unit Course content Class
Ecology and Environment:
1. Basic ideas on Species, Population, Community and Ecosystem.
7
2. Nutrient Cycles (Nitrogen, Phosphorus, Magnesium).
I 3. Environmental Issues.
Environmental Pollution and Health Hazards:
1. Outline of Environmental pollution with special emphasis on bio-waste, medical waste and municipal 8
waste pollution and health hazards.
Environmental Health and Diseases:
2. Basic concept on health and diseases, Principle of communicable and non-communicable diseases and
conditions. 10
3. Food pollution (Additives, Preservatives, Contaminants), Present status, Types and problems.
4. Health programme in India, Hospital waste management in India.
Medical Geology:
1. Concept, Contribution to medical geology from public health and Environmental medicine,
Development of Medical Geology, Geological sources of Nutrients, Mineral elements needed for good 12
health.
2. Dietary sources and bioavailability of essential mineral elements, Some case studies.
II Medical Microbiology:
1. Concept of Pathogens, Infection and Intoxication. 10
2. Communicable disease, causative agents, symptoms, mode of transmission, prevention and treatments.
Environmental Laws:
3
1. Constitutional provisions and Rules and Regulations.
50
Suggested Readings:
1) Conant J and Fadem P. (2008). A Community Guide to Environmental Health. Hesperian Foundation.
2) Finn S. and O'Fallon R.L. (1019). Environmental Health Literacy. Springer.
3) Friis R.H. (2019). Essentials of Environmental Health. 3 rd Ed. Jones & Bartlett.
4) Nriagu J.O. (2011). Encyclopaedia of Environmental Health.
5) Resnik D.B. (2012). Environmental Health Ethics. Cambridge.
Theory (4 credits)
Unit Course content Class
Animal Cell Culture:
1. Introduction to basic tissue culture techniques; chemically defined and serum free media;
2. Animal cell culture, their maintenance and preservation; 8
3. Various types of cultures suspension cultures, continuous flow cultures, immobilized cultures; somatic
cell fusion; cell cultures as a source of valuable products; organ cultures.
Animal Diseases and their diagnosis:
1. Bacterial and viral diseases in animals;
10
2. Monoclonal antibodies and their use in diagnosis;
I 3. Molecular diagnostic techniques like PCR, in-situ hybridization; northern and southern blotting; RFLP.
Micromanipulation of embryo’s:
1. Equipment used in micromanipulation;
6
2. Enrichment of x and y bearing sperms from semen samples of animals;
3. Artificial insemination and germ cell manipulations; in vitro fertilization and embryo transfer.
Transgenic animals:
1. Concepts of transgenic animal technology;
6
2. Strategies for the production of transgenic animals and their importance in biotechnology;
3. Stem cell cultures in the production of transgenic animals.
Separation and purification techniques:
1. Chromatography (paper, TLC and column), gel electrophoresis and centrifugation (ultra and density 8
gradient centrifugation).
Microscopic techniques:
6
1. Structure, principles and applications of optical, phase-contrast, electron and fluorescence microscopes.
Molecular Spectroscopy:
II 1. Concept of electromagnetic radiation, Lambert-Beer law and its mathematical expression.
2. nstrumentation and working principle of UV/ visible spectroscopy, IR spectroscopy, Atomic absorption
12
spectroscopy, fluorescence, NMR, circular dichroism and surface plasma resonance spectroscopy and
Mass spectrometry (peptide-based finger printing using MALDI-TOF-MS and ESI-MS),
3. Principle and application of XRD,
Diagnostic Biophysics:
4
1. Radio-isotopic tracer techniques and autoradiography, MRI and ECG.
60
Suggested Readings:
1) Physical Biochemistry by David Freifelder.
2) Molecular Cloning by Sambrook & Russel.
3) Biophysical Chemistry by Cantor and Schimmel
4) Biophysics & Biophysical Chemistry by D. Das
5) Animal Biotechnology. Ranga M.M. Agrobios India Limited, 2002
6) Text Book of Animal Biotechnology. Ramadass P, Meera Rani S. Akshara Printers, 1997.
7) Masters J.R.W. Animal Cell Culture: Practical Approach. Oxford University Press. 2000
8) Molecular Biotechnology by Jones & Bartlett. Primrose SB. 2001.
Theory (4 credits)
Unit Course content Class
1. Health and disease.
4
2. Major intrinsic and extrinsic causes of disease.
1. Haemodynamic disorders (hyperaemia, congestion, haemorrhage, oedema, thrombosis, embolism and
6
infarction).
I 1. Glycogen overload, amyloidosis and fatty changes.
2. Reversible and irreversible cell injury degenerations, necrosis and its types, apoptosis, differences 10
between post-mortem autolysis and necrosis, gangrene and its types.
1. Photosensitization.
2. Disturbances in growth (Aplasia, hypoplasia, atrophy, hypertrophy, hyperplasia, metaplasia and 10
dysplasia).
1. Inflammation: Definitions, classification, various cell type and their functions, mediators, cardinal signs
and systemic effects. 8
2. Wound healing by primary and secondary intention including growth factors.
1. Clinical methods for the diagnosis of diseases: Infectious and non-infectious diseases. 8
II
1. Benign and Malignant tumors.
2. Terminology, classification and causes of Cancer. 10
3. Characteristic features of malignancy.
1. Epidemic, Endemic, Pandemic and Sporadic diseases: their causes and precautionary measures. 4
60
Suggested Readings:
1) McGavin MD & Zachary JF. 2006. Pathologic Basis of Veterinary Diseases. 4th Ed. Elsevier
2) Vegad JL. 2007. Text Book of Veterinary General Pathology. 2nd Ed. International Book Distr.
3) Meuten DJ. 2002. Tumors in Domestic Animals. 4th Ed. Blackwell.
4) Jones TC, Hunt RD & King NW 1997. Veterinary Pathology. Blackwell Publishing.
Theory (4 credits)
Unit Course content Class
1. General characters of Class Insecta.
8
2. Outline classification up to orders with examples.
External Morphology:
1. General body plane.
2. Head – Generalized structure, types and modifications. Structure and types of antennae and mouthparts. 8
3. Thorax – Generalized structure; General structure of leg and wing, venation of wing.
I
4. Abdomen – Generalized structure, Appendages including genitalia.
Insect Physiology:
1. Digestive system - Alimentary canal, Salivary glands, Mechanism of digestion, Micro-organisms and
their role in digestion. 8
2. Excretory system – Major and accessory organs of excretion, Physiology of excretion, Composition of
insect urine, Vitamins in Malpighian tubules.
Specialized Organs:
1. Sound production - Structure of the organs, Mechanism of sound production and Significance. 6
2. Bioluminescence - Structure of organs, Brief mechanism of light production and Significance.
1. General study of some major fish orders: Cypriniformes, Clupeiformes, Ophiocephaliformes,
6
Perciformes, Mastacembeliformes.
Fish Physiology:
1. Digestive system and digestion.
2. Olfactory organ and chemoreception.
10
3. Osmoregulatory and Circulatory systems.
4. Endocrine glands (Pituitary and Thyroid).
5. Reproductive organs, Breeding and Parental care.
Specialized Organs:
1. Bioluminescent organ.
II 2. Electric organs. 4
3. Poison gland.
4. Acoustico-lateralis system.
Aquaculture:
1. Inland fisheries – Pond management, Composite culture, Induced breeding of Prawn and air-breathing
fishes.
2. Marine fisheries – Methods and importance; Hilsha and Pomfret fishery.
10
3. Importance of edible aquatic animals other than fishes.
4. Fish biotechnology – production of Transgenic fishes.
5. Integrated aquaculture.
6. Common diseases of fish.
60
Suggested Readings:
1) Chapman, R.F. (2013). The Insects: Structure and function. Cambridge University Press.
2) Gullan, P.J. and Cranston, P.S. (2014). The Insects: An Outline of Entomology. Wiley Blackwell.
3) Richards O.W. and Davies R.G. (1977). Imms general text book of Entomology (Vol I) Structure, Physiology &
Development. Chapman & Hall.
4) Richards O.W. and Davies R.G. (1977). Imms general text book of Entomology (Vol II) Classification & Biology.
Chapman & Hall.
5) Tembhare, D. B. (1997): Modern Entomology. Himalaya Publishing House.
6) Beaumont, A. R. & Hoare, K. (2003). Biotechnology & Genetics in Fisheries and Aquaculture. Blackwell Publishing.
7) Jhingran, V. G. (1991). Fish and Fisheries of India.3rd ed., Hindusthan Pub. Corp. John Wiley & Sons.
8) Lagler, K. F., Bardach, J. E., Miller, R. R. & Passino, D. R. (2003). Ichthyology.
9) Nelson, J. S. (2006): Fishes of the World, 4 th Ed. Wiley.
10) Lagler, K. F., Bardach, J. E., Miller, R. R. & Passino, D. R. (2003). Ichthyology.
11) Srivastava, C. B. L. (1999). Fish Biology. Narendra Pub. House.
Theory (4 credits)
Unit Course content Class
1. Data mining and analytical tools of bioinformatic: Sequence and structure databases. 6
1. Sequence analysis (biomolecular sequence file formats, scoring matrices, sequence alignment
approaches, phylogeny) 8
I 2. Tools for genomic and proteomic studies.
1. Concept of data mining, analytical tools and techniques of Genomics, transcriptomics, proteomics and
8
metabolomics.
1. Functional and pharmaco genomics including microarrays,
8
2. Next Generation Sequencing.
Biostatistics:
1. Measures of central tendency and dispersal; probability distributions (Binomial, Poisson and normal);
Sampling distribution.
2. Difference between parametric and non-parametric statistics. 16
II
3. Confidence Interval; Errors; Levels of significance.
4. Regression and Correlation.
5. t-test; Analysis of variance..
1. Use of statistical software in Biology. 2
Bioethics:
1. Animal cruelty act and its implications, CPCSEA guidelines.
12
2. Role of NGO in animal cruelty prevention
3. Animal quarantine act, animal business and its law.
60
Suggested Readings:
1) Bioinformatics: Sequence and Genome Analysis by David W. Mount, D.W. Cold Spring Harbor Laborator Press.
2) Bioinformatics and Functional Genomics by J. Pevsner, John Wiley & Sons, Inc. (New Jersey).
3) Biotechnology: Expanding Horizon by B.D. Singh
4) Biostatistics by K.S Negi
5) Statistical Methods Vol I and II by N. G. Das
IBSMSASC905: Practical 5
Practical (4 Credits)
Animal Biotechnology and Biophysics:
1) Determination of viability of cultured cells using MTT assay.
2) Preparation and amplification of cDNA.
3) Spectroscopic analyses of DNA, RNA and protein and determination of absorption maxima.
4) Experimental validation of Lambert-Beer Law.
IBSMSASC906: Practical 6
Practical (4 Credits)
Entomology and Ichthyology:
1) Identification: Common Insect and Fish species.
2) Dissection: Digestive system and Nervous system of Grasshopper/ Honey bee.
3) Dissection: Urinogenital system and Efferent branchial system of Teleosta.
4) Mounting: Different types of scales in Fish, Pecten from Fowl.
5) Field visit for study of natural Insect and Fish habitats or culture centres.
Theory (4 credits)
Unit Course content Class
1. Origin of life and environment 5
1. Environmental factors influencing life.
5
2. The concept of zeitzeber.
I 1. Milestones in clock research; Chronobiology in 21st century; Evolution of biological timing system;
Clocks, genes and evolution.
2. Biological Rhythms - Ultradian, Tidal/ Lunar, Circadian and Circannual rhythms. Temperature effects 20
and compensation; Perception of natural zeitgeber signals.
3. Geophysical environment - Seasons; proximate and ultimate factors.
1. Concept of synchronization and masking; Photic and non-photic zeitgebers; Circannual rhythms; 5
1. Entrainment, masking and zeitgeber cycles; parametric and non-parametric entrainment.
10
2. Entrainment models; Phase shift, Phase response curves (PRC) and phase transition curves (PTC).
1. Organization of circadian system in multicellular animals.
II
2. Concept of central and peripheral clock system.
10
3. Circadian pacemaker system in invertebrates with particular reference to Drosophila.
4. Circadian pacemaker system in vertebrates with particular reference to rodent.
1. Suprachiasmatic nucleus (SCN) as the main vertebrate clock; concept of core and shell. 5
60
Suggested Readings:
1. Alcock, J. (2001). Animal Behaviour: An Evolutionary Approach. , Sinauer Associate Inc., USA.
2. Chattopadhyay, S. (2012). Life: Evolution, Adaptation, Ethology. 3rd Edn. Books and Allied, Kolkata.
3. Dujatkin, L.A. (2014). Principles of Animal Behaviour. 3rd Edn. W.W.Norton and Co.
4. Dunlap, J.C., Loros, J.J. and De Coursey, J.P. (2004). Chronobiology: Bioloigcal Time keeping. Sinauer Associates, Inc.
Publishers, Sunderland, MA, USA
IBSMSASMJE1002: Molecular Parasitology and Immunology I
Theory (4 credits)
Unit Course content Class
Human clinical and veterinary parasitology:
Life cycles, pathogenesis, identification, diagnosis, prophylaxis, treatment,and pharmacology of giardiasis,
6
amoebiasis, malaria, leishmaniasis, filariasis, trypanosomiasis, schistosomiasis and soil-transmitted
helminthiases.
Vectors and their importance in transmission of Parasitic diseases:
General morphology and life stages of fleas, flies, ticks and mites (Boophilus sp. of Babesia, Trombicula sp.
4
of Rickettsia, Xenopsylla cheopis of-plague vector, Phlebotomus sp. of Leishmaniasis, Glossina sp. of
trypanosomiasis, Mosquitoes of malaria and filariasis.
I
Host-parasite interaction:
1. Recognition and entry process of different pathogen and parasites in the host cell/ body.
10
2. Alteration of host cell behavior by pathogens
3. Antigen refractory and immune mimicry.
Molecular biology of parasites:
1. Molecular basis of antigenic variation and diversity of parasites.
10
2. Molecular organization and gene structure in antigenic variation; Role of RNAi.
3. Strategies of molecular cloning and protection against parasite infections.
Cells and organs involved in immune system:
1. Mononuclear and polymorphonuclear phagocytotic cells;
6
2. Primary (bone marrow, thymus) and secondary lymphoid organs (spleen, tonsil, CALT, MALT,
GALT).
Innate immunity:
1. Anatomical barriers
2. Physiochemical mediators and cell types of innate immunity, Innate receptors (TLR, Scavenger receptor 10
etc.)
II 3. Signal transduction pathways in activation of innate immunity. Complement activation pathways.
Adaptive immunity:
1. Development, maturation and activation of B- and T- cells.
2. Major histocompatibility complex (genes and antigen presentation).
10
3. Immunoglobulins - structure classes and subclasses.
4. Generation of antibody diversity and gene rearrangement, class switching, clonal selection and
expansion; ADCC.
Immunedysfuntion and therapeutic immunointervention strategies:
4
Immunoglobin-based treatment of infectious, non-infectious diseases and autoimmune diseases.
60
Suggested Readings:
6) Molecular Parasitology by Marr
7) Human parasitology by Burton J Bogtish.
8) General parasitology by Thomas C Cheng
9) Medical parasitology by Markell and Voges
10) Foundation of parasitology by Roberts Janovy
11) Immunology by Kuby (Free man publication)
12) Immunology and immunotechnology by Ashim k. Chakravarty (Oxford university Press)
13) Essentials of immunology by Roitt (Blackwell scientific publication)
14) Cellular & Molecular Immunology by Abbas & Litchman
15) Immunobiology by Janeway
IBSMSASMJE1003: Animal Breeding and Laboratory Animals I
Theory (4 credits)
Unit Course content Class
1. Individual verses population.
2. Genetic Structure of population. 6
3. Hardy Weinberg Law.
1. Factors affecting changes in gene and genotypic frequencies and their effect on genetic structure of
8
I animal populations.
1. Approach to equilibrium under different situations: Viz: Single autosomal locus with two alleles, single
8
sex-linked locus.
1. Small population: random genetic drift, effective population size.
8
2. Quantitative genetics: gene effects, population mean and variance and its partitioning.
1. Threshold traits.
6
2. Genetic and phenotypic parameters - their methods of estimation, uses, possible biases and precision.
1. Inbreeding, different types of inbreeding, its uses and demerits 8
II
1. Outbreeding: Different types of outbreeding, heterosis, merits of outbreeding. 10
1. Crossbreeding and development of crossbreed animals in India and abroad, species hybridization. 6
60
Suggested Readings:
1) Bulmer MG. 1980. The Mathematical Theory of Quantitative Genetics. Clarendon Press.
2) Crow JF & Kimura M. 1970. An Introduction to Population Genetics. Theory.
3) Harper & Row. Falconer DS & Mackay TFC 1996. An Introduction to Quantitative Genetics. Longman.
4) Jain JP. 1982. Statistical Techniques in Quantitative Genetics. Tata McGrawHill. Pirchner F. 1981. Population
Genetics in Animal Breeding. S. Chand.
5) Van Vleck LD, Pollak EJ & Bltenacu EAB. 1987. Genetics for Animal Sciences. WH Freeman.
Theory (4 credits)
Unit Course content Class
Cellular organization:
1. Membrane structure and transport of small molecules, electrical properties of membrane.
2. Cytoplasmic organelles: Ultra structure and function. 10
3. Cytoskeleton and its role in motility.
4. Cell junction, cell adhesion and extracellular matrix.
Protein folding, sorting and trafficking:
1. Chaperones and protein folding.
I 2. Process of protein sorting and trafficking, vesicular transport, protein import and mitochondrial 8
assembly.
3. Trafficking between nucleus and cytoplasm.
Cell signaling:
1. Hormones and their receptors, cell surface receptor.
2. Signaling through G-protein coupled receptors, signal transduction pathways, second messengers, 12
regulation of signaling pathways.
3. Bacterial two-component signaling systems, bacterial chemotaxis and quorum sensing.
Cancer :
1. Oncogenes, tumor suppressor genes.
2. Cancer and the cell cycle, virus-induced cancer, metastasis, interaction of cancer cells with normal cells,
7
therapeutic interventions of uncontrolled cell growth.
3. Tumor angiogenesis.
II
4. Hybridoma technology and its application in monoclonal antibody production.
Programmed cell death, repair and recombination:
1. Apoptosis and its regulation.
7
2. Aging and senescence.
3. DNA damage and repair.
4. Homologous and non-homologous recombination.
IBSMSASC1005: Entomology I
Theory (4 credits)
Unit Course content Class
I. Insect Morphology
Morphology and Biology of the orders:
12
Collembola, Orthoptera, Hemiptera, Lepidoptera, Coleoptera, Diptera, Strepsiptera & Hymenoptera.
Integument:
4
Structure, formation and functions of cuticle, Cuticular modifications, Moulting
Head:
1. Modified Mouthparts (Orthopteroid, Hemipteroid and Neuropteroid). 4
2. Types of eye – Dorsal ocelli, Stemmata, Compound eye; Image formation.
I Thorax:
1. Articulation and modification of leg. 4
2. Morphological variation of wing, wing coupling apparatus and mechanism of flight.
Perception:
1. Chemoreception - structure of cuticular and contact receptors, distribution & functions.
4
2. Mechanoreception - Structure and functions of cuticular, cellular, proprioceptors, chordotonal and
tympanal organs.
Exocrine glands:
2
Important exocrine glands, structure and functions.
II. Insect Physiology
Respiratory system:
1. Respiratory organs 4
2. Physiology of gaseous, gill and plastron respiration.
Nervous system:
4
II Central nervous system, Brain, Sympathetic nervous system.
Reproduction:
1. Male and Female reproductive system, Special types of reproduction.
5
2. Factors controlling fecundity and fertility.
3. Swarming and Oviposition.
Development: 5
1. Insect eggs, Embryonic development and dynamics.
2. Post-embryonic development and metamorphosis - Types with examples,
3. Larva and pupa - structure and types.
Endocrine system:
1. Anatomical organization.
4
2. Structure and hormones.
3. Endocrine control of metamorphosis, diapause
Insect behaviour:
1. Feeding behaviour - types of feeding and damage, host range and host selection.
6
2. Reproductive behaviour - mate location, mating frequency and oviposition.
3. Social organization and social behaviour of social insects (Honeybee/ Termites).
Gall formation:
2
Insects involved, mechanism, importance.
60
Suggested Readings:
1) Chapman, R.F. (2013). The Insects: Structure and function. Cambridge University Press.
2) Duntson P.A. (2004). The Insects: Structure, Function and Biodiversity. Kalyani Publ., New Delhi.
3) Gillott, C. (2005). Entomology. 3 ed. Springer Online Book - ISBN-13 978-1-4020-3183-0 (e-book).
4) Gullan, P.J. and Cranston, P.S. (2014). The Insects: An Outline of Entomology. Wiley Blackwell.
5) Kerkut GA & Gilbert LI. 1985. Comprehensive Insect Physiology, Biochemistry and Pharmacology. Vols. I-XIII.
Pergamon Press, New York.
6) Klowden. (2002). Physiological Systems in Insects, Academic Press.
7) Patnaik B.D. (2002). Physiology of Insects. Dominant, New Delhi.Gillott, C. (2005). Entomology. 3 ed. Springer
8) Richards O.W. and Davies R.G. (1977). Imms general text book of Entomology (Vol I) Structure, Physiology &
Development. Chapman & Hall.
9) Richards O.W. and Davies R.G. (1977). Imms general text book of Entomology (Vol II) Classification & Biology.
Chapman & Hall.
10) Snodgrass, R.F. (1935). Principles of Insect Morphology. Tata McGraw-Hill Publishing Company Ltd.
11) Tembhare, D. B. (1997): Modern Entomology. Himalaya Publishing House.
12) Wigglesworth V.B. (1984). Insect Physiology. 8th Ed. Chapman & Hall, New York.
Theory (4 credits)
Unit Course content Class
1. Diversity and complexity of the clock system.
8
2. Melatonin: Input or output signal of the clock system;
1. Molecular Biology of the circadian pacemaker system: Experiments in the generation of models for the
10
feedback loop comprising the clock, Pre-molecular genetics era, Generic core circadian feedback loop.
I 1. Molecular clockworks in Cyanobacteria, Neurospora, Drosophila and mammals.
6
2. Cellular and molecular bases of Entrainment.
1. Experiments in the generation of models for the feedback loop comprising the clock, Pre-molecular
genetics era, Generic core circadian feedback loop. 6
2. Molecular clock works in Fish and Mammal.
1. Photoreception and photo-transduction.
6
2. The physiological clock and measurement of day length.
1. Role of photic and non-photic cues in seasonality.
6
2. Reversal of roles of principal and supplementary cues.
II
1. Evolution of photoperiodism: comparative studies; Circannual rhythms and seasonality; Molecular
8
bases of seasonality;
1. The relevance of biological clocks for human welfare - Clock function (dysfunction).
10
2. Human health and diseases - Chronopharmacology, chronomedicine, chronotherapy.
60
Suggested Readings:
1. Alcock, J. (2001). Animal Behaviour: An Evolutionary Approach. , Sinauer Associate Inc., USA.
2. Chattopadhyay, S. (2012). Life: Evolution, Adaptation, Ethology. 3rd Edn. Books and Allied, Kolkata.
3. Dujatkin, L.A. (2014). Principles of Animal Behaviour. 3rd Edn. W.W.Norton and Co.
4. Dunlap, J.C., Loros, J.J. and De Coursey, J.P. (2004). Chronobiology: Bioloigcal Time keeping. Sinauer Associates, Inc.
Publishers, Sunderland, MA, USA
IBSMSASMJE1007: Molecular Parasitology and Immunology II
Theory (4 credits)
Unit Course content Class
Immunomodulation and immune-evasion by parasites:
1. Mechanism of host-parasite and host-vector interactions in leishmaniasis and malaria.
10
2. Mechanism of antigenic variation in malaria, trypanosomiasis and giardiasis.
3. Immunomodulation in lymphatic filariasis and amoebiasis.
Drug resistance and its molecular mechanism:
1. Emergence of drug resistance in medically important parasites. 6
I 2. Mechanism of drug resistance, identification of resistant strain, Role of SNPs.
Antiparasitic drug development approaches:
1. Classical medicical chemistry approach.
6
2. Rational drug design, high-throughput screening, Pharmacokinetics, pharmacodynamics,
biotransformation and bioavailability.
Techniques of molecular parasites and recent trends in molecular parasitology research:
1. Whole genome sequencing; cDNA mapping, Worm base, Polymorphism analysis. 8
2. Altered pathogenicity of parasites.
Antiparasitic vaccine development:
1. Immunization techniques.
6
2. Types of vaccines, antibody engineering and generation of antibody using recombinant DNA
technology.
Immunotherapy of animal diseases:
1. Recombinant cytokines and their use in the treatment of animal infections.
6
2. Monoclonal antibodies in therapy; vaccines and their applications in animal infections
3. Gene therapies immunotherapy for treating animal diseases.
Immunological techniques:
1. Flow cytometry (FACS and MACS) based sorting of immune cells, cytokines and chemokines and
II
analysis of signalling pathways.
8
2. Different types of serological tests (Precipitation, Agglutination, Immunofluorescence, RIA, ELISA,
Flowcytometry).
3. Vaccines for bacterial, viral, protozoal and parasitic infections.
Recent trends in immunology:
1. Analysis of immune regulatory circuits, Polymorphisms in innate immune receptors.
2. Development of polyreactive antibodies
10
3. Use of immunoglobin enriched plasma for treating complex infectious and autoimmune diseases,
Abzymes
4. Antibodies as anticancer agents.
60
Suggested Readings:
1) Molecular Parasitology by Marr
2) Human parasitology by Burton J Bogtish.
3) General parasitology by Thomas C Cheng
4) Medical parasitology by Markell and Voges
5) Foundation of parasitology by Roberts Janovy
6) Immunology by Kuby (Free man publication)
7) Immunology and immunotechnology by Ashim k. Chakravarty (Oxford university Press)
8) Essentials of immunology by Roitt (Blackwell scientific publication)
9) Cellular & Molecular Immunology by Abbas & Litchman
10) Immunobiology by Janeway
IBSMSASMJE1008: Animal Breeding and Laboratory Animals II
Theory (4 credits)
Unit Course content Class
1. Heritability, types of heritability, its significance and uses.
6
2. Repeatability: Significance and uses.
1. Selection, natural verses artificial selection.
2
2. Selection on the basis of single trait and multi-trait selection.
1. Bases of selection: individual selection, sib selection, family selection, pedigree selection, combined
12
I selection and progeny testing.
1. Selection for general and specific combining ability.
6
2. Genetic polymorphism and its application in genetic improvement.
1. Quantitative trait loci
2. Marker-assisted selection 4
3. Genomic selection.
1. Introduction to laboratory animal genetics – Breeding colonies of mice, rats, hamsters, guinea pigs and
8
rabbits.
1. Selection and Mating methods/ systems – monogamous, polygamous and others. 6
II 1. Development of genetically controlled laboratory animals – Rules for nomenclature
2. Inbred strains, outbreed stocks, mutant stocks, recombinant inbred strains. 8
3. Transgenic strains, gene targeting and production of ‘gene knock-out’ animals.
1. Genetic control and monitoring – Record keeping – Ethics of laboratory animal use. 8
60
Suggested Readings:
1) Bulmer MG. 1980. The Mathematical Theory of Quantitative Genetics. Clarendon Press.
2) Crow JF & Kimura M. 1970. An Introduction to Population Genetics. Theory.
3) Harper & Row. Falconer DS & Mackay TFC 1996. An Introduction to Quantitative Genetics. Longman.
4) Jain JP. 1982. Statistical Techniques in Quantitative Genetics. Tata McGrawHill. Pirchner F. 1981. Population
Genetics in Animal Breeding. S. Chand.
5) Van Vleck LD, Pollak EJ & Bltenacu EAB. 1987. Genetics for Animal Sciences. WH Freeman.
Theory (4 credits)
Unit Course content Class
Concepts on Inheritance Biology:
1. Mendelian principles and its deviation, extension of Mendelian principles – co dominance, incomplete
dominance, gene interactions, pleitropy, penetrance and expressivity, phenocopy.
2. Linkage and crossing over, sex linked, sex-limited and sex influenced character. 12
3. Sex determination, dosage compensation in Drosophila, Caenorhabditis elegans and mammals,
4. Genetic disorders, polygenic inheritance, heritability and its measurements, QTL. linkage mapping,
microbial genetics.
I RNA interference and antisense technology :
8
1. siRNA, shRNA, miRNA, therapeutic use of RNA interference.
Transcriptome and Proteome:
1. Concepts of transcriptome and proteome, gene families, interrupted gene, pseudogenes, and transposable
genetic element. 10
2. Random mutagenesis, mutation screens, complementation & suppression, Manipulation of genes, site-
specific mutagenesis, reporter genes expression, genomic expression profiling.
Recombinant DNA technology :
1. Molecular techniques in gene cloning, DNA modifying enzymes (restriction endo Nuclease, kinase,
II polymerases, ligases). 10
2. Gene transfer and transfection methods, transgenic animal production- DNA integration. Use of cre/loxp
in transgenic animal production.
3. Somatic cloning, use of plasmids and vectors in recombinant DNA technology.
IBSMSASC1010: Entomology II
Theory (4 credits)
Unit Course content Class
I. Applied Entomology
Crop Husbandry:
1. Bionomics and Management of pests of Paddy, Wheat, Jute, Sugarcane, Mango, Oil-seed crops,
Vegetables and Stored grains. 10
2. Polyphagous pest.
3. Concept of injury level, Economic level of injury, Economic threshold level.
Management of insect pests:
1. Integrated pest Management (IPM).
I 2. Chemical control: Organochemicals, Inorganic chemicals and Phytochemicals. Mode of action of
toxicants.
3. Physical, Mechanical and Cultural control.
4. Biological Control: Predators, Parasitoids, Nematodes and other animals. 20
5. Hormonal control: Concept and use of Juvenoids, Ecdysoids and Insect growth regulators (IGRs).
6. Genetic control: Methods of genetic manipulation and field trials.
7. Biotechnological control: Transgenic plants and Transgenic agents.
8. Insect Fumigants, Attractants, Repellents and Antifeedants.
9. Impact of different management methods on environment. Pest control equipments.
II. Applied Entomology
Veterinary Entomology:
1. General biology, Vector potentiality, Pathogenesis and control of Arthropods affecting Animals:
Biting midges (Culicoides), Black flies (Simulium), Warbles (Hypoderma), Nasal bots (Oestrus ovis),
Stomach bots (Gasterophilus), Bottle flies (Calliphora, Lucilia, Chrysomya), Sand flies (Phlebotomus),
Mosquitoes (Culex, Anophele, Aedes), Horse flies (Tabanus). 12
II 2. Fleas (Ctenocephalides, Xenopsylla).
3. Soft ticks (Argas, Ornithodoros, Otobius).
4. Hard ticks [Hyalomma, Haemaphysalis, Rhipicephalus, (Boophilus), Dermacentor, Ixodes, Amblyomma].
5. Mites (Demodex, Sarcoptes, Psoroptes).
Medical Entomology: 5
1. Biology of Mosquitoes, Sand flies, House flies, Human lice and Rat fleas with role in disease
transmission in Humans and their control.
2. Promise of Pharmaceutical Entomology.
Industrial Entomology:
5
Recent trends in Sericulture (Mulberry, Tasar, Muga and Eri), Lac culture and Apiculture.
Forest Entomology:
4
Insects causing damage to the forests - Defoliators, Borers and Sapsuckers.
Forensic Entomology:
4
Insects associated with the corpses and carrions, Techniques in forensic entomology.
60
Suggested Readings:
Atwal, A.S. and Dhaliwal, G.S. (2002). Agricultural pests of South Asia and their management. Kalyani Publ., NewDelhi.
Bhati,aB.B., Pathak, K.M.L. and Juyal, P.D. (2016). Textbook of Veterinary parasitology. Kalyani Publ., NewDelhi.
Bruin, J. and Geest, L.P.S. (2009). Diseases of Mites and Ticks. Springer.
Cameron, M. and Lorenz, L. (2013). Biological and Environmental Control of Disease Vectors. CABI.
Chandra, G. (2000). Mosquito. Sribhumi Pub. Co., Kolkata.
Dhaliwal, G.S. & Koul O. (2007). Biopesticides and Pest Management. Kalyani Publ., NewDelhi.
Fenemore P.G. and Prakash A. (2015). Applied Entomology. New Age International (P) Ltd.
Ghosh M.R. (2008). Concepts of Insect Control. New Age International (P) Ltd.
Hati, A. K. (2001). Medical Entomology. Allied Book Agency, Kolkata.
Mullen, G.R. and Durden, L.A. (2019). Medical and Veterinary Entomology. 3rd Ed. Academic Press.
Norris R.F., Caswell-Chen E.P. and Kogan M. (2002). Concept in Integrated Pest Management. Prentice Hall, NewDelhi.
Shukla, G. S. and Upadhyay, V. B. (2005). Economic Zoology. 4th Ed. Rastogi Publication.
Singh R. (2018). Elements of Entomology. Rastogi Publications.
Soulsby (2012). Helminths, arthropods and Protozoa of Domesticated Animals. 7th Ed. EWP
Srivastava, K. P. (1988). A textbook of Applied Entomology. Vol. II. 2nd Ed. Kalyani Publishers, NewDelhi.
Wall R. and Shearer D. (1997). Veterinary Entomology. 1st Ed. Chapman & Hall.
Williams R.E. (2009). Veterinary Entomology, Livestock & Companion Animals. 1st Ed. CRC Press.
Practical (4 credits)
Practical (4 credits)
1. Determination of the efficacy (LD50; IC50) of antiparasitic drugs (praziquantel, ivermectin, DEC, albendazole) on
different parasites of rat/human/chicken and investigation of the effect of the drug at molecular level (DNA, RNA,
protein and oxidative parameters).
2. Isolation of total protein from helminth parasite and determination of protein profile using SDS-PAGE & Native
PAGE.
3. Assessment of parasite mediated activation of immune cells and determination of TLR4 signaling pathway.
4. Isolation and characterization (Giemsa staining) of peritoneal macrophages.
5. Isolation PBMC using phycoll-density gradient centrifugation using human/animal blood.
6. Isolation of monocytes from PBMC, differentiation to macrophages/dendritic cells and characterization using flow
cytometry. Assessment of macrophage migration.
7. Co-culture and transculture of macrophage/dendritic cells &naïve T- cellsof immune cells.
8. ELISA and immunofluorescence of cytokines and chemokines.
End Semester Examination Pattern: Full marks – 20
1)Experiment from item no. 1 to 3: 7 marks
2) Experiment from item no. 4 to 6: 7 marks
3) Experiment from item no. 7 & 8: 6 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Molecular Cloning by Sambrok and Russel
2) Practical Biochemistry by David T Plummer, 3rd Edition
2) Biochemical Methods by S. Sadasivan and A. Manikam, 3rd Edition
3) Modern Experimental Biochemistry by Rodney Boyer, 3rd Edition
Practical (4 credits)
Unit Course content
1. Problems on Hardy Weinberg Law.
2. Correlation, properties of correlation, types of correlation, problems on correlation.
3. Regression, difference between correlation and regression, problems on regression.
4. Concepts of Heritability and Repeatability, types of heritability. Problems based on heritability and repeatability.
5. Problems on Inbreeding, inbreeding coefficient and coefficient of relationship.
I
6. Problems on Heterosis.
7. Visit to a laboratory animal house
8. Handling of laboratory animals
9. Nutritional requirements of laboratory animals
10. Breeding and Reproductive management in laboratory animals
End Semester Examination Pattern: Full marks – 20
1) Problems from item no. 1: 7 marks
2) Problems from item no. 2 to 4: 7 marks
3) Problems from item no. 5 & 6: 6 marks
4) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
5) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Bulmer MG. 1980. The Mathematical Theory of Quantitative Genetics. Clarendon Press.
2) Crow JF & Kimura M. 1970. An Introduction to Population Genetics. Theory.
3) Harper & Row. Falconer DS & Mackay TFC 1996. An Introduction to Quantitative Genetics. Longman.
4) Jain JP. 1982. Statistical Techniques in Quantitative Genetics. Tata McGrawHill. Pirchner F. 1981. Population
Genetics in Animal Breeding. S. Chand.
5) Van Vleck LD, Pollak EJ & Bltenacu EAB. 1987. Genetics for Animal Sciences. WH Freeman.
IBSMSASMJE1014 Cell and Molecular Biology III PRACTICAL
Theory (4 credits)
Course content Class
1) Basic principle of experimental animal handling and ethical issues and biosafety for molecular biology
work.
2) Identification of different embryonic stages and mutants of Drosophila, Preparation of
Drosophila food.
3) Slide preparation for Polytene chromosome from Salivary gland of Drosophila larvae.
4) Cell viability test using vital dye.
5) Identification of Mitotic and meiotic cell division stages using onion root tip and grass hopper testis
respectively.
6) Slide preparation for metaphase chromosome from rat bone marrow/blood.
7) Karyotype and idiogram preparation (G, C banding), human lymphocyte culture.
8) Single cell gel electrophoresis assay.
9) Reporter gene assay using transgenic insect model.
10) Extraction of DNA from animal tissue/blood.
11) Extraction of RNA from animal tissue.
12) Preparation of culture media, E. coli culture preparation and plasmid isolation.
13) Agarose gel electrophoresis for plasmid, genomic DNA and RNA.
14) PCR and RT-PCR.
15) Separation of protein from mouse/rat tissue on native and/ denaturation gel (PAGE) and western blotting.
Practical (4 credits)
1. Identification with reasons (up to family) of Exopterygote and Endopterygote insects.
2. Identification of common Insect Pests, Vectors, Parasites and economically important Insects.
3. Dissection: Digestive system, Reproductive system and Nervous system of Blue bottle fly/ Wasp/ Cockroach.
4. Mounting: Different types of Antennae, Mouthparts, Legs and wings; Tympanum.
5. Equipments and Methods of insect collection and preservation/ mounting.
6. Preparation of Insect blood smear, staining and identification. Chitosan test of cuticle.
7. Determination of LC50/ LD50
8. Visit to any biodiversity reach place to study Entomofauna or Sericulture/ Lac culture/ Apiculture farm.
End Semester Examination Pattern: Full marks – 20
1) Identification (3 from item no. 1, & 2 from item no. 2): 10 marks
2) Dissection (1 from item no. 3): 6 marks
3) Physiological test (from item no. 6): 2 marks
4) Submission of collected preserved and mounted insects: 2 marks
5) Field report: mandatory to produce during the examination but marks will be allotted from internal assessment.
6) Laboratory note book: mandatory to produce during the examination but marks will be allotted from internal
assessment.
7) Viva-voce: mandatory in the examination but marks will be allotted from internal assessment.
Suggested Readings:
1) Devasahayam H.L. (2011). Practical Manual of Entomology (Insects and Non-insects Pests). New India Publ. Agency.
2) Fenemore P.G. and Prakash A. (2015). Applied Entomology. New Age International (P) Ltd.
3) Mullen, G.R. and Durden, L.A. (2019). Medical and Veterinary Entomology. 3rd Ed. Academic Press.
4) Sinha, J.K., Chatterjee, A.K. and P. Chattopadhyay (2015). Advanced Practical Zoology. Books and Allied (P) Ltd.
5) Trigunayat M.M. (2001). A Manual of Practical Entomology. Scientific Publishers Journals Dept
[End Semester Evaluation: Thesis submission – 25, Presentation – 15 & Viva-voce – 10]
KAZI NAZRUL UNIVERSITY Ph.D. in Animal Science (W.E.F. 2019-2020)
Semist
Course of Discipline Course Course Course
Discipline Semester* Course Name Course Code L-T-P er
Study Code Code Type Details Credit
Credit
I Research Methodology
CC PHDAS-101 CC-1 4-0-0 4 4
Abbreviations: PHD = Doctor of Philosophy; PHDAS= Doctor of Philosophy in Animal Science; CC=Core Course; L= Lecture Hour; T= Tutor
CA Marks
Total
Sem Marks
Marks
Report Submission and Presentation Theoretical
50 50
50 (10+40)
50 50
50 (30+20) 50 50
150 150
SEMESTER CREDITS
Total credits
Theory Practical
Semester – I 8 8
Semester – II 4 4
Total 8 4 12
SEMESTER – I (CREDITS – 8)
COURSE CREDIT EXAM FULL
COURSE DIVISION
CODE POINT HOURS MARKS
PHDAS-101 Research Methodology Theory 4 10+40 50
PHDAS-102 Elective Paper (Any One) Theory 4 10+40 50
1. Endocrinology &
Chronobiology
2. Molecular Parasitology &
Immunology
3. Animal Genetics & Breeding
4. Molecular & Clinical
Toxicology
5. Vector Biology & Vector
Borne Diseases of Animals
6. Animal Biotechnology
SEMESTER – II (CREDITS – 4)
COURSE CREDIT EXAM FULL
COURSE DIVISION
CODE POINT HOURS MARKS
PHDAS-201 Review of Research Work Practical 4 30+20 50
Suggested readings:
1. Imm’s general textbook of Entomology (Vol II): Richards & Davies, 1977.
2. Medical Entomology: Hati, 1979.
3. Biological and Environmental Control of Disease Vectors: Cameron & Lorenz (Eds.),
2013.
4. Medical and Veterinary Entomology: Mullen & Durden (Eds.), 2019.
5. Diseases of Mites and Ticks: Bruin & Geest, 2009.
6. General Parasitology: Cheng, 2005
7. Veterinary Parasitology: Taylor, Coop & Wall, 2016.
8. Microbiology – Principles and Explorations: Black & Black, 2015.
9. Helminths, arthropods and Protozoa of Domesticated Animals: Soulsby, 2012.
10. Veterinary Parasitology: Taylor, Coop & Wall, 2016
11. Textbook of Veterinary parasitology: Bhatia, Pathak & Juyal, 2016
SEMESTER – II (CREDITS – 4)
PHDAS-201 (Review of Research Work)
Students have to work on any of their topic of research interest on which they are required to make
a comprehensive review and submit to the department. The review work will be evaluated by the
members of BRS, Department of Animal Science.