Genetic Engineering

BCBP-4310

In this course, students will explore the molecular methods and applications of recombinant DNA technology and the issues regarding their use through case studies on the effect of genetic engineering in medicine, agriculture, biology, forensics, and various other areas of technology. The course has three major components: 1) techniques used in the generation of recombinant molecules, 2) application of recombinant technology to diagnostics and therapeutics and 3) genetically modified organisms. (Students cannot obtain credit for both this course and BCBP 6310 .)

4 credits
Cross-listed with:

Past Term Data

Offered
Not Offered
Offered as Cross-Listing Only
No Term Data
Spring Summer Fall
(Session 1) (Session 2)
2023
Genetic Engineering (4c)
  • Keith Fraser
Seats Taken: 26/35
2022
Genetic Engineering (4c)
  • Keith Fraser
Seats Taken: 22/35
2021
Genetic Engineering (4c)
  • Keith Fraser
Seats Taken: 31/35
2020
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 25/35
2019
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 29/35
2018
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 24/35
2017
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 31/35
2016
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 33/35
2015
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 27/35
2014
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 37/40
2013
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 33/40
2012
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 40/40
2011
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 40/40
2010
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 34/40
2009
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 29/40
2008
Genetic Engineering (4c)
  • Donna Eisemann Crone
Seats Taken: 41/40
2007