GENETIC ENGINEERING

Paper Code: 
DBTE 703
Credits: 
4
Contact Hours: 
60
Objective: 

 

Course Outcomes

Learning and teaching strategies

Assessment Strategies

 

 

Upon completion of the course the learner will:

CO72: Acquaint and discuss tools for genetic engineering

CO73: Apply various types of vectors in research.

CO74: Explain and analyze types and applications of PCR techniques.

CO75: Differentiate, compare and appraise Gene manipulation and protein-DNA interaction.

CO76: Design mechanism and strategies of Gene silencing and genome editing technologies.          .

Interactive Lectures, Discussion, Tutorials, Reading assignments, Self-learning assignments, Effective questions, Giving tasks

Class test, Semester end examinations, Quiz, Solving problems in tutorials, Assignments, Presentation, Individual and group projects

 

 

12.00
Unit I: 
Introduction and tools for genetic engineering

Impact of genetic engineering in modern society; general requirements for performing a genetic engineering experiment; restriction endonucleases and methylases; DNA ligase, Klenow enzyme, T4 DNA polymerase, polynucleotide kinase, alkaline phosphatase; cohesive and blunt end ligation; linkers; adaptors; homopolymeric tailing; labelling of DNA: nick translation, random priming, radioactive and non-radioactive probes, hybridization techniques: northern, southern, south-western and far-western and colony hybridization, fluorescence in situ hybridization.

12.00
Unit II: 
Different types of vectors

Plasmids; Bacteriophages; M13 mp vectors; PUC19 and Bluescript vectors, phagemids; Lambda vectors; Insertion and Replacement vectors; Cosmids; Artificial chromosome vectors (YACs; BACs); Principles for maximizing gene expression expression vectors; pMal; GST; pET-based vectors; Protein purification; His-tag; GST-tag; MBP-tag etc.; Intein-based vectors; Inclusion bodies; methodologies to reduce formation of inclusion bodies; mammalian expression and replicating vectors Baculovirus and Pichia vectors system, plant based vectors, Ti and Ri as vectors, yeast vectors, shuttle vectors.

12.00
Unit III: 
Different types of PCR techniques

Principles of PCR: primer design; fidelity of thermostable enzymes; DNA polymerases; types of PCR – multiplex, nested; reverse-transcription PCR, real time PCR, touchdown PCR, hot start PCR, colony PCR, asymmetric PCR, cloning of PCR products; T-vectors; proof reading enzymes; PCR based site specific mutagenesis; PCR in molecular diagnostics; viral and bacterial detection; sequencing methods; enzymatic DNA sequencing; chemical sequencing of DNA; automated DNA sequencing; RNA sequencing; chemical synthesis of oligonucleotides; mutation detection: SSCP, DGGE, RFLP.

12.00
Unit IV: 
Gene manipulation and protein-DNA interaction

Insertion of foreign DNA into host cells; transformation, electroporation, transfection; construction of libraries; isolation of mRNA and total RNA; reverse transcriptase and cDNA synthesis; cDNA and genomic libraries; construction of microarrays – genomic arrays, cDNA arrays and oligo arrays; study of protein-DNA interactions: electrophoretic mobility shift assay; DNase footprinting; methyl interference assay, chromatin immunoprecipitation; protein-protein interactions using yeast two-hybrid system; phage display.

12.00
Unit V: 
Gene silencing and genome editing technologies

Gene silencing techniques; introduction to siRNA; siRNA technology; Micro RNA; construction of siRNA vectors; principle and application of gene silencing; gene knockouts and gene therapy; creation of transgenic plants; debate over GM crops; introduction to methods of genetic manipulation in different model systems e.g. fruit flies (Drosophila), worms (C. elegans), frogs (Xenopus), fish (zebra fish) and chick; Transgenics - gene replacement; gene targeting; creation of transgenic and knock-out mice; disease model; introduction to genome editing by CRISPR-CAS with specific emphasis on Chinese and American clinical trials.

ESSENTIAL READINGS: 

·  Brown, T. A., Gene Cloning and DNA Analysis, An Introduction.  Wiley –Blackwell publication. 2010.

·  Sandy B. Primrose, Richard M. Twyman.  Principles of Gene Manipulation and Genomics, Blackwell Sciectific Publication. 2009.

·  Brown, T. A., Genomes (3rd ed.). New York: Garland Science Pub. 2006.

·   Old, R. W., Primrose, S. B., & Twyman, R. M., Principles of Gene Manipulation: an Introduction to Genetic Engineering. Oxford: Blackwell Scientific Publications. 2001.

·   Green, M. R., & Sambrook, J., Molecular Cloning: a Laboratory Manual. Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press. 2012.

·   Selected papers from scientific journals, particularly Nature & Science.

REFERENCES: 

SUGGESTED READINGS:

·     P.B. Kaufman, W. Wu. D. Kim and L.J; Cseke, Molecular and Cellular Methods in Biology and Medicine, CRC Press, Florida.

·      M. Glover and B.D. Hames, DNA Cloning: a Practical Approach, IRL Press, Oxford.

·      S.L. Berger and A.R. Kimmel, Methods in Enzymology vol. 152, Guide to Molecular Cloning Techniques, Academic Press, Inc. San Diego.

·      D.V. Goeddel, Methods in Enzymology Vol 185, Gene Expression Technology, Academic Press, Inc., San Diego.

·      Kingsman S.M. and Kingsman A.J., Genetic Engineering. An Introduction to gene analysis and exploitation in eukaryotes. Blackwell Scientific Publications, Oxford, 1990.

·      Desmond S.T. Nicholl, An Introduction to Genetic Engineering. Edited by, Cambridge University Press. 2002.

·     Sue Carson and Dominique Robertson, Manipulation and Expression of Recombinant DNA., Second edition, Academic Press. 2005.

·    Primrose and Twyman, Principles of Gene Manipulation and Genomics. (7th edition). Blackwell Publishers. 2006.

e RESOURCES:

·     https://nptel.ac.in/courses/102103013

·     https://nptel.ac.in/courses/102103074

·     https://www.youtube.com/watch?v=3IsQ92KiBwM

·     https://www.youtube.com/watch?v=FtNreXY7poA

·      https://www.youtube.com/watch?v=FvHRio1yyhQ&t=71s

JOURNALS:

•   International Journal of Molecular Biotechnology

•   Indian Journal of Biotechnology

•   Current Science

 

 

Academic Year: