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Course Criteria
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4.00 Credits
(203) Either semester. Four credits. Three class periods and one 3-hour laboratory period. Prerequisite: CHEM 2241 or 2444. (CHEM 2444 may also be corequisite.) Not open for credit to students who have passed MCB 3010. The structure, chemistry, and metabolism of carbohydrates, lipids and proteins. Enzyme function and kinetics, energy metabolism, and structure and function of nucleic acids. A survey course for students of agriculture, general biology, medical technology, nursing, and pharmacy. Molecular and Cell Biology majors, biophysics majors, and other students desiring a more intensive introduction or considering advanced course work in biochemistry or molecular biology should take MCB 3010. A fee of $20 is charged for this course.
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3.00 Credits
(210) First semester. Three credits. Prerequisite: BIOL 1107. This course is intended to be taken before MCB 2000 or 3010. Structural organization of cells and the molecular basis of dynamic cellular processes, with emphasis on eukaryotic cells. Topics include protein targeting, vesicle trafficking, cytoskeleton, cell-cell interactions in tissues, and the molecular basis of related human diseases.
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3.00 Credits
(201) First semester. Three credits. Recommended preparation: MCB 2210 or 2410 or 2610. Basic mechanisms of genetic information transfer in eukaryotic cells from DNA to folded and assembled proteins. Regulation of transcription, translation, DNA replication, and the cell cycle.
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4.00 Credits
(225W) Second semester. Four credits. One 1-hour lecture and two 4-hour laboratories. Prerequisite or corequisite: MCB 2210. Prerequisite: ENGL 1010 or 1011 or 3800. Open to honors students. Open to nonhonors students with instructor consent. Research techniques that investigate processes in live cells including DNA transfection, GFP-fusion protein dynamics, confocal fluorescence microscopy, time-lapse video microscopy, and flow cytometry. Students will pursue independent research projects.
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3.00 Credits
(218) Either semester. Three credits. Two lectures and one problem session. Prerequisite: BIOL 1107. May not be counted toward the majors or minors in Biological Sciences, Ecology and Evolutionary Biology, Molecular and Cell Biology, Physiology and Neurobiology, or Structural Biology and Biophysics. Not open to students who have passed MCB 2410. Principles of genetics as applied to humans. Focus on modern methods of molecular genetics.
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3.00 Credits
(200) Either semester. Three credits. Two lectures and one problem session. Not open to students who have passed MCB 2400. Prerequisite: BIOL 1107. Principles of genetics as applied to humans. Focus on modern methods of molecular genetics.
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4.00 Credits
(213) Second semester. Four credits. Three class periods and 2-hour laboratory. Prerequisite: BIOL 1108 or 1110, or MCB 2410 or equivalent, and CHEM 1128. Survey of genetic theory and applications of genetic analysis. Model genetic systems in animals, plants, and microbes. A fee of $20 is charged for this course.
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4.00 Credits
(229) Either semester. Four credits. Three lecture periods and one 2-1/2-hour laboratory period. Prerequisite or corequisite: CHEM 2241 or 2443. Recommended preparation: BIOL 1107 or equivalent. Biology of microorganisms, especially bacteria. Cellular structure, physiology, genetics, and interactions with higher forms of life. Laboratory familiarizes students with methodology of microbiology and aseptic techniques. A fee of $20 is charged for this course.
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3.00 Credits
(206) First semester. Three credits. Prerequisite: BIOL 1107 or CHEM 1128 or instructor consent. An introduction to principles underlying the structure and function of the molecules guiding life processes. These principles will be applied to proteins, DNA/RNA and membranes as well as to the energetics of life processes.
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3.00 Credits
(207) Second semester. Three credits. Prerequisite: CHEM 2443; MATH 1122 or 1132; PHYS 1202, 1402 or 1602 or instructor consent. Energetics and kinetics of metabolic reactions. Interactions of electromagnetic radiation and biological macromolecules. Formation and energetics of supramolecular structures. The basis of selected techniques of molecular biology, such as DNA hybridization, radioimmune assays. DNA melting and thermal transitions in polymers, thermodynamics, analysis of reactions, binding theory, cooperative interactions.
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