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Specific objectives of course: To understand:

1. Structure and function of cell.

2. Nature of genetic material and hereditary process

3. Familiarization with evolutionary processes.

Course outline:

a) Cell Biology

1. Structure and Function of Bio-molecules

i. Carbohydrates

ii. Lipids

iii. Proteins

iv. Nucleic Acids

2. Cell: Cell theory, cell types (prokaryotes, eukaryotes), basic properties of cell.

3. Brief description of following cell organelles

i Cell wall

ii Cell membrane

iii Nucleus

iv Endoplasmic reticulum

v Plastids

vi Mitochondria

viiRibosomes

viii Dictyosomes

ix Vacuoles

4. Reproduction in somatic and embryogenic cell, mitosis, meiosis and cell cycle

b) Genetics

1. Introduction, scope and brief history of genetics. Mendelian inheritance; Laws

of segregation and independent assortment, back cross, test cross,

dominance and incomplete dominance.

2. Molecular genetics; DNA replication. Nature of gene, genetic code,

transcription, translation, protein synthesis, regulation of gene

expression (e.g. lac operon).

3. Chromosomal aberrations; Changes in the number of chromosomes.

Aneuploidy and Euploidy. Changes in the structure of chromosomes,

deficiency, duplication, inversion and translocation.

c) Evolution: Introduction and theories.

Lab Outline:

Cell Biology

1. Study of cell structure using compound microscope and elucidation of

ultrastructure from electron microphotographs

2. Measurement of cell size.

3. Study of mitosis and meiosis by smear/squash method and from prepared

slides.

4. Study of chromosome morphology and variation in chromosome number.

5. Extraction and estimation of carbohydrate, protein, RNA and DNA from plant

sources.

Genetics

1. Genetical problems related to transmission and distribution of genetic material.

2. Identification of chromosomes in plant material. Carmine/orcein staining.

3. Determination of blood groups

Recommended Books:

1. Hoelzel, A. R. 2001. Conservation Genetics. Kluwer Academic Publishers.

2. Dyonsager, V. R. (1986). Cytology and Genetics. Tata and McGraw-Hill

Publication Co. Ltd,, New Delhi.

3. Lodish. H. 2001. Molecular Cell Biology. W. H. Freeman and Co.

4. Sinha, U. and Sinha, S. (1988). Cytogenesis Plant Breeding and Evolution, Vini

Educational Books, New Delhi.

5. Strickberger, M. V. (1988), Genetics, MacMillan Press Ltd., London.

6. Carroll, S. B., Grenier, J. K. and Welnerbee, S. D. 2001. From DNA to Diversity -

Molecular Genetics and the Evolution of Animal Design. Blackwell Science.

7. Lewin, R, 1997. Principles of Human Evolution. Blackwell Science.

8. Strickberger, M. W. 2000 Evolution. Jones & Bartlet Publishers Canada

9. Ingrouille M. J. & B. Eddie. 2006. Plant Diversity and Evolution. Cambridge

University Press.

10.Bruce Albert et al. 2009. Essential cell biology. Garland Sciences Publishers.

Journals/Periodicals:

Theoretical & Applied Genetics, the Cell, Heredity.

 

 


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