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Course Criteria
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3.00 Credits
Nonmenclature, synthesis, and reactions of carbon compounds. Three lecture hours per week. F,S,Su
Prerequisite:
Take CHEM*112 CHEM*112L;, Take CHEM*331L;
Corequisite:
CHEM*331L
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1.00 Credits
A survey of laboratory methods of organic chemistry. Three laboratory hours per week. F.
Prerequisite:
Take CHEM*331;
Corequisite:
CHEM*331
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3.00 Credits
A comtinuation of Chemistry 331. Three lecture hours per week. F,S,Su.
Prerequisite:
Take CHEM*331 CHEM*331L;, Take CHEM*332L;
Corequisite:
CHEM*332L
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1.00 Credits
Laboratory exercises to accompany Chemistry 332. Three laboratory hours per week. S.
Prerequisite:
Take CHEM*331L;, Take CHEM*332;
Corequisite:
CHEM*332
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3.00 Credits
Three 1-hour lectures. Structure and function of amino acids, pepticles, and proteins. Enzyme kinetics and mechanisms. Membrane sturcture and function. Metabolism principles glycolysis, tricarboxylic acid cycle, electron transport, and oxidative phosphorylation. Carbohydrates and fatty acid metabolisms. Photosynthesis. F.
Prerequisite:
Take CHEM*331 CHEM*331L CHEM*332 CHEM*332L;, Take CHEM*351L;
Corequisite:
CHEM*351L
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1.00 Credits
This lab will cover experiments designed to reinforce those topics covered in the lecture: protein analysis and purification, enzyme activity determination, lipid extraction and analysis, and eletrophoretic analyses.
Prerequisite:
Take CHEM*351;
Corequisite:
CHEM*351
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3.00 Credits
Three 1-hour lectures. Structure and function of mononucleotides, amino acid and nucleotide metabolism. Lipid and amino acid synthesis. Organization, replication, repair and expression of DNA. Viruses, receptors and information transfer. Biotechnology method and applications DNA restriction, sequencing, cloning and probing. S.
Prerequisite:
Take CHEM*351 CHEM*351L;, Take CHEM*352L;
Corequisite:
CHEM*352L
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1.00 Credits
Biochemistry II Lab
Prerequisite:
Take CHEM*351 CHEM*351L;, Take CHEM*352;
Corequisite:
CHEM*352
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3.00 Credits
(3 credits)(Prereq: PHYS*205 or PHYS*211, and MATH*160 or MATH*160B, and CHEM*332)(Coreq: CHEM*353L) This course develops mathematically the physical principles in chemistry and how they are applied to tackle important problems in biochemistry, biology, and medicine. Topics include laws of thermodynamics applied to biological molecules, kinetics of life processes, including the rate of reactions, and applying the laws to complex biological processes, the dynamics of microscopic systems, and general features of spectroscopy with applications to biological systems in the area of photobiology. F
Prerequisite:
GROUP: Take PHYS*211(PHYS_211) or PHYS*205(6284); GROUP: Take CHEM*332; GROUP: Take MATH*160 or MATH*160B;, Take CHEM*353L;
Corequisite:
CHEM*353L
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1.00 Credits
(1)(Coreq: CHEM 353) This course will focus on experiments that will provide insight into the physical principles of chemistry and how they are applied to tackle important problems in biochemistry, biology and medicine. We will spend time on spectroscopic techniques including UV-VIS, fluorescence and NMR techniques, data collection, data manipulation and scientific writing. We will also familiarize ourselves with software used for theoretical quantum calculations of biological molecules. S.
Prerequisite:
Take CHEM*353;
Corequisite:
CHEM*353
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