This course will enable the students to –
Course |
Course Outcome |
Learning and teaching strategies |
Assessment Strategies |
|
Paper Code |
Paper Title |
|||
BOT 122
|
Cytology and Genetics |
On completion of this course, the students will be able to; CO5: Develop an advanced knowledge about cytogenetics and human disease. CO6: learn to perform cell culture, chromosome preparations, karyotyping and FISH analysis of chromosomes. CO7: Learn to diagnose and interpret pathology of chromosomes (chromosome aberrations, trisomy, rearrangements etc.). CO8: Understand and investigate the cause and effect of chromosome abnormalities and associated human diseases. CO9 Develop a professional knowledge of the cytogenetic disorders CO10: Develop knowledge of basic cytogenetic laboratory techniques necessary to prepare tissue samples |
Class lectures Seminars Tutorials Group discussions and Workshops Question preparation
|
Class test, Semester end examinations, Quiz, Solving problems in tutorials, Assignments, Presentation, Individual and group projects |
Chromatin organization: Chromosome structure, packaging of DNA (nucleosome organization, solenoid model), molecular organization of centromere and telomere, SMC proteins-Cohesin and Condensin proteins, cot curve, Repetitive DNA, DNA methylation, specialized types of chromosomes: polytene and lampbrush, B-chromosomes.
Genome anatomies: Genomes of Virus, Bacteria and Eukaryotic organisms; mobile genetic elements, transformation, conjugation and transduction in bacteria, cytoplasmic male sterility, Structural and numerical alternations in chromosomes, Robertsonian translocations, B-A translocations, Alien gene transfer-examples from Triticum, Arachis and Brassica
Gene structure and expression: Fine structure of gene, translation, Regulation of gene expression in prokaryotes and eukaryotes, significance of introns, Panoply of operon, catabolic repression, attenuation and antitermination, Gene silencing: RNAi, Antisense RNA.
Mutations: Spontaneous and induced mutations, physical and chemical mutagens, molecular basis of gene mutations, transposons, site-directed mutagenesis, proto-oncogene and oncogenes, Sex determination, Sex linked inheritence, Sex limited characters
Molecular Cytogenetics:
Genetic mapping, genetic markers-RFLP, RAPD, SNPs.