The page uses Browser Access Keys to help with keyboard navigation. Click to learn moreSkip to Navigation

Different browsers use different keystrokes to activate accesskey shortcuts. Please reference the following list to use access keys on your system.

Alt and the accesskey, for Internet Explorer on Windows
Shift and Alt and the accesskey, for Firefox on Windows
Shift and Esc and the accesskey, for Windows or Mac
Ctrl and the accesskey, for the following browsers on a Mac: Internet Explorer 5.2, Safari 1.2, Firefox, Mozilla, Netscape 6+.

We use the following access keys on our gateway

n Skip to Navigation
k Accesskeys description
h Help
Cornell University    
 
    
 
  Sep 23, 2017
 
Courses of Study 2017-2018
[Add to Favorites]

BIOMG 3330 - Principles of Biochemistry: Proteins, Metabolism, and Molecular Biology


(PBS-AS)      
Summer (six-week session). 4 credits. Student option grading.

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 .
Prerequisite: one majors-level biology course and one year general chemistry, and any of the following organic chemistry courses:  CHEM 1570 , or CHEM 3530 , or CHEM 3570  or CHEM 3590 , or equivalents, or permission of instructor. Biological sciences majors must take course for a letter grade.

J. Blankenship.

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, gene expression, protein synthesis, and modern DNA technologies. This is a summer session class taught in a lecture format.

Outcome 1: After taking BIOMG 3330, students should be able to:
• Discuss and describe in writing: The structure and function of biologically important macromolecules, the general catalytic and regulatory mechanisms of enzymes, the energetics, organization, and regulation of metabolic pathways, the mechanisms underlying DNA replication, DNA repair, transcription and its regulation, and translation (protein synthesis), the techniques used to study proteins, membranes, and nucleic acids.

Outcome 2: • Think analytically and use quantitative reasoning to solve biochemical problems.

Outcome 3: • Formulate conclusions based on the analysis of biochemical experimental results.



[Add to Favorites]