Genetic Engineering

Paper Code: 
BTE 402
Credits: 
03
Contact Hours: 
45
Objective: 

This course will enable the students to -

 

  1. learn the basics of Genetic Engineering
  2. study different COning and expression vectors
  3. study the enzymes used in Genetic Engineering
  4. learn the procedures involved in isolation of genomic and nuclear DNA

 

Course Outcomes (COs):

 

Course

Learning outcome (at course level)

Learning and teaching strategies

Assessment Strategies

Paper Code

Paper Title

 

 

 

 

 

 

 

 

BTE 402

 

 

 

 

 

 

 

Genetic Engineering

CO 49 Learn the basics of Genetic Engineering

 

CO 50 Study different COning and expression vectors

 

CO 51 Study the enzymes used in Genetic Engineering

 

CO 52 Learn the procedures involved in isolation of genomic and nuclear DNA

 

CO 53 Learn the applications of genetic engineering in various

fields of Biotechnology

Approach in teaching: Interactive Lectures, Discussion, Tutorials, Reading assignments, presentations Learning activities for the students: Self-learning assignments, Effective questions, Seminar presentation, Giving tasks.

C A test, Semester end examinations, Quiz, Solving problems in tutorials, Assignments, Classroom interaction

 

8.00
Unit I: 
Introduction to Genetic Engineering
  • Milestones & Importance of Genetic Engineering, vehicles for gene Cloning: Plasmids, Bacteriophages, Cosmids, phagemids, YAC, BAC.

 

10.00
Unit II: 
Tools & Techniques- I
  • Introduction of foreign DNA into plant and animal cells.
  • Enzymes used in G.E: DNA polymerase, Polynucleotide kinase, ligase, Terminal deoxynucleotidyl transferase, Reverse transcriptase, Restriction endonucleases, Nick translation system.

 

9.00
Unit III: 
Tools & Techniques- II
  • Techniques: PCR, Colony and Plaque hybridization, Northern, southern, Western hybridization, Dot and slot Blot technique, DNA sequencing: Maxam Gilbert method, Sanger’s method, automated DNA sequencing.

 

 

9.00
Unit IV: 
Applications of Genetic Engineering – I
  • Production of protein from Cloned genes, recombinant insulin, growth hormones, human proteins, recombinant vaccines, genetic counseling.

 

9.00
Unit V: 
Applications of Genetic Engineering –II

In Agriculture: Insect resistance, Virus resistance, modification of seed protein quality, suppression of endogenous genes, male sterility, biochemical production, plant derived vaccines, In Forensic science: identification of crime suspects, kinship analysis

ESSENTIAL READINGS: 

 

 

  • S.B.Primorse, (1994) Molecular Biotechnology (2nd Edn.), Blackwell Scientific Publishers, Oxford.
  • M.R.Walker and R.Repley, (1997). Route Maps in Gene Technology, Blackwell Science Ltd.Oxford.
  • T.A. Brown ,(2001). Gene Cloning and DNA Analysis. An Introduction. Blackwell Science.
  • Sambrook J., Fritsch E.F and Maniatis T. (2000) Molecular COning: a Laboratory Manual, Cold Spring Harbor Laboratory Press, New York.
  • Glover D.M. and Hames B.D. (1955) DNA COning: a practical Approach, , IRL Press Oxford.
  • Kaufman P.B., Kim W.Wu. D.and Cseke L.J, (1995). Molecular and Cellular Methods in Biology and Medicine, CRC Press. Florida,.
  • Berger S.L. and Kimmel A.R. (1998). Methods in Enzymology, Guide to Molecular COning Techniques, Academic press. San Diego,
  • Gooddol D.V. (1990). Methods in Enzymology, Gene Expression Technology, Academic Press, San Diego.
  • Mickloss D.A.and Greyer G.A. (1990). DNA Science. A First Course in Recombinant Technology,,Cold Spring Harbor Laboratory Press, New York,
  • Davies J.A and Roznikolf W.S. (1992). Milestones in Biotechnology. Classic papers on genetic Engineering, Butterworth-Helnemann, Boston,.
  • Kingsman S.M. and Kingsman A.J (1998). Genetic Engineering. An Introduction to gene analysis and exploitation in eukaryotes. Blackwell Scientific Publications, Oxford, 1998.

 

Academic Year: