BIOMG 3350

BIOMG 3350

Course information provided by the Courses of Study 2016-2017.

Comprehensive introduction to biologically important molecules and polymers. Topics include protein structure and function, enzyme catalysis, metabolic regulatory pathways, DNA and RNA structure, DNA replication and repair, modern DNA technologies, gene expression, and protein synthesis.

When Offered Spring.

Prerequisites/Corequisites Prerequisite: one majors-level biology course and one year general chemistry, any of the following organic chemistry courses: CHEM 1570, or CHEM 3530, or CHEM 3570, or CHEM 3590 , or equivalent, or permission of instructor.
Forbidden Overlaps Forbidden Overlap: Students may receive credit for only one course in the following group: BIOMG 3300, BIOMG 3310-BIOMG 3320, BIOMG 3330, BIOMG 3350, NS 3200.

Distribution Category (PBS-AS)

Comments Biological sciences majors must take course for a letter grade.

Outcomes
  • After taking BIOMG 3350, students should be able to: Discuss and/or describe in writing: The structure and function of biologically important macromolecules General catalytic and regulatory mechanisms of enzymes, The energetics and organization of metabolic pathways, The mechanisms underlying gene expression (transcription), protein synthesis (translation), DNA replication, DNA repair, and DNA recombination.
  • Think analytically and use quantitative reasoning to solve biochemical problems.
  • Formulate conclusions based on the analysis of biochemical experimental results.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session. 

  • 4 Credits Stdnt Opt

  •  1005 BIOMG 3350   LEC 001

  • Prerequisite: one majors-level biology course; and one year general chemistry, and CHEM 1570, or CHEM 3570-3580; or equivalents, or permission of instructor. CHEM 3580 may be co-registration. May not be taken for credit after BIOMG 3300, BIOMG 3310, BIOMG 3320, BIOMG 3330 or NS 3200. Biological sciences majors must take course for a letter grade.