GENE DIFFERENTIATION AND GAMETE BIOLOGY

Paper Code: 
24ZOL421
Credits: 
4
Contact Hours: 
60.00
Max. Marks: 
100.00
Objective: 
Course objectives:
This course will enable the students to –
1. Develop an understanding of scope and historical background of developmental biology to the students, impart knowledge regarding basic concepts of differentiation, morphogenesis and pattern formation and stem cells.
2. Analyze and demonstrate essential events of developmental biology through proper explanation of gametogenesis, and stages of embryonic development and fetal formation and anomalies associated with the development.
 
Course Outcomes: 

Course

Learning outcomes (at course level)

Learning and teaching Strategies

Assessment Strategies

Course Code

Course Title

 

 

24ZOL421

Gene Differen tiation & Gamete Biology

(Theory)

CO145.  Examine  developmental

patterns in unicellular eukaryotes

and    metazoans and develop an

understanding about the process of

gamete formation from stem cell

population to

mature ova and sperm.

CO146.   Appraise   the    detailed

knowledge of steps leading to the

formation of gametes and development of embryos.

CO147. Describe the mechanisms underpinning cell specification in animals and germ cell determination and migration.

CO148. Discuss axis specification

in     drosophila,    tetrapod    limb

development and metamorphosis in

amphibian and insects

CO149.      Analyze      the      sex

determination  in  mammals  and

process of teratogenesis.

CO150. Contribute effectively in

course-specific interaction

Approach in

teaching:

Interactive

Lectures,

Discussion,

Tutorials,

Reading

assignments,

Learning

activities for the students:

Self-learning assignments, Effective questions,

Seminar

presentation,

Charts    or    model

preparation

Class test

Semester     end

examinations,

Quiz

Assignments,

Surprise test

 

16.00
Unit I: 
UNIT I
Introduction to animal development
Problems and scope of developmental biology
Development in unicellular eukaryotes
 
Developmental patterns in Metazoans Spermatogenesis
Oogenesis & vitellogenesis
Morphology
Endocrinology
Ovarian follicular growth and differentiation
Ovulation and ovum transport in mammals
 
12.00
Unit II: 
Unit II
Fertilization
Creating multicellularity
Cleavage types, planes and pattern
Blastulation
Gastrulation in tetrapods: Morphogenetic movements Early Vertebrate development (till differentiation)
Neurulation: Formation and Differentiation of neural tube
Derivatives of Ectoderm, Mesoderm and endoderm
 
12.00
Unit III: 
Unit III
Cell commitment, specification and differentiation
Cell specification in nematodes
Germ cell determinants
Germ cell migration
Progressive cell -cell interaction Early development in Birds andMammals
Cleavage and Gastrulation
Establishment of body axis
 
12.00
Unit IV: 
Unit IV
Genetics of axis specifications in Drosophila Homeo box concept Tetrapod limb development
Specification of the Limb fields:Hox genes and Retinoic acid
Induction of the early Limb bud : Fibroblast Growth factors
Specification of Forelimb or Hind limb:Tbx4 andTbx5
Induction of the apical Ectodermal ridge
Generating the Proximal –Distal axis of the limb
Specification of the Anterior –Posterior limb
Generation of the Dorsal –Ventral axis of the limb
Coordination of the three axis
Cell Death and the formation of the digits andJoints Hormones as mediators of development
Amphibians Metamorphosis: Morphological Changes, Biochemical Changes associated with metamorphosis and HormonalControl
Insect Metamorphosis: Types of insect metamorphosis, Hormonal control
 
10.00
Unit V: 
Unit V
Chromosomal sex determination in mammals: Testis determining genes, Ovarian genes
Secondary sex determination in mammals Environmental sex determination Significance of Stem Cells
Teratology
 
Essential Readings: 
Gilbert, S. F. (2010). Developmental Biology, IX Edition, SinauerAssociates,Inc., Publishers, Sunderland, Massachusetts, USA.
 
An Introduction to Embryology :Balinsky, B.I. : W.B. Saudersm,Delhi.
Development Biology. Berrill, N.J. McGraw Hill book Com. NewYork.
 
References: 
SUGGESTED READINGS:
Modern Embryology : Bodemer, C.W. : Holt Rein chart and Winstom, Inc. New York, Chicago.
Carlson, R. F. Patten's Foundations of Embryology
Kalthoff (2008). Analysis of Biological Development, II Edition, McGraw- HillPublishers.
Lewis Wolpert (2002). Principles of Development. II Edition, Oxford UniversityPress.
Gene activity during early development, Davidson, E. H. Academic Press, New York.
 
e RESOURCES:
==
 
JOURNAL:
Journal of Developmental Biology
International Journal of Developmental Biology
 
Academic Year: 
2024-2025
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