Course

Preamble

Molecular Biology encompasses the basic study and understanding of the execution of central dogma.

Unit 1

Historical and conceptual background: Discovery of DNA as genetic material, Griffith’s experiment, Hershy and Chase experiment, Chargaff’s rule and DNA double helix.

Genome organization: Structure of DNA, Types of DNA, Organization of Chromatin. Concept of Gene, Introns and Exons genome, chromosome. Structure of RNA and Protein. Nature and Properties of Genetic Code.

Unit 2

The replication of DNA: Chemistry of DNA synthesis, Mechanism of Replication: Initiation, Elongation, synthesis of Leading and lagging strands, Termination. Enzymes and proteins involved in DNA replication.

Unit 3

The mutability and Repair of DNA: Replication Errors, DNA Damage and their repair: mismatch repair, SOS response, Excision Repair, Photoreactivation. Types of mutations.

Unit 4

Information Transfer –I: Mechanism of Transcription: Basic transcription apparatus, Initiation, elongation and termination of transcription, Transcription of mRNA, tRNA and rRNA, types of RNA polymerases, transcription factors, Inhibitors of transcription- rifampicin and α-amanitin. Post-Transcriptional Modifications: Split Genes, Concept of introns and exons, RNA splicing, Spliceosomes, Gene regulation.

Unit 5

Mechanism of Translation: Features of genetic code and exceptions in some systems, Ribosome structure- rRNA and proteins, Charging of tRNA, aminoacyl tRNA synthetases, Proteins involved in initiation, elongation and termination of polypeptides, Fidelity of translation, Inhibitors of protein synthesis – tetracyclins, aminoglycosides, chloramphenicol and aminoglycosides.

Course Outcome

CO1 – Understand the structure and function of DNA, RNA, proteins and genome organization in prokaryotes and eukaryotes. Understand the concept of Gene and the gene architecture.

CO2 – Understand the role of different enzymes and the molecular events in the DNA replication.

CO3 – Understand the DNA-repair systems and consequences of different types of mutations.

CO4 – Understand the key molecular events of transcription, post-transcriptional processing of eukaryotic transcripts. Understand the basics of gene regulation.

CO5 – Understand the molecular events of translation and post translational modification.

Program Outcome

PO1: Bioscience Knowledge

PO2: Problem Analysis

PO3: Design/Development of Solutions

PO4: Conduct Investigations of complex problems

PO5: Modern tools usage

PO6: Bioscientist and Society

PO7: Environment and Sustainability

PO8: Ethics

PO9: Individual & Team work

PO10: Communication

PO11: Project management & Finance

PO12: Lifelong learning

Program Specific Outcomes. (PSO)

PSO 1 – Chemical and physical basis of biology

PSO 2 – Computational science in biology and medicine

PSO 3 – Biochemical and physiological complexity in biology and medicine

PSO 4 – Molecular technology in biology and medicine

PSO 5 – Cell based approaches in diagnosis and therapy

PSO 6 – Microorganisms in medicine

PSO 7 – Nanoscale entities and its significance in medicine

PSO 8 – Tissue architecture engineering in medicine

PSO 9 – Compounds as drugs and its efficacy

PSO 10 – Bioinformatics and artificial intelligence in medicine

PSO 11 –Technology in personalizing medicine

PSO 12 – Protein structural complexity in medicine

PSO 13 – Projecting science and medicine to public

(1) Friefelder, D. Molecular Biology.2nd Edition.Narosa Book Distributors Pvt. Ltd. 2008.

(2) Alberts, B., Johnson, A., Lewis, J., Raff, M., Roberts, K. and Walter, P. Molecular Biology of the Cell. 5th Edition. Garland Science. 2007.

(3) Molecular Biology of the Gene, 6th edition (2007), Watson, J. D., Baker T. A., Bell, S. P., Gann, A., Levine, M., and Losick, R; Benjamin Cummings Publishers, ISBN-13: 978- 0805395921.

(4) The Cell: A Molecular Approach, 6th edition (2013), Cooper and Hausman; Sinauer Associates, Inc. ISBN-13: 978-1605351551.