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Course Criteria
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0.00 Credits
Joseph Wolenski. mw 1.30-6.30 Sc §C Credit (0) Continuation of mcdb 344Lb, with increased emphasis on experimental design and interpretation of data. Research projects are semi-independent. Focus on developing a research project in modern biomedical research. Students engage in multiple journal discussions and oral presentations of data. Prepares for mcdb 475a or b or 485a, 486b or 495a, 496b. Enrollment limited. Prerequisite: mcdb 344Lb. Special preregistration procedures apply. Students must contact the instructor by October of the fall term for spring registration.
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3.00 Credits
Experimental Strategies in Molecular Cell Biology
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3.00 Credits
bG /amth 465b,Systems Modeling in Biology
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3.00 Credits
Kenneth Nelson, Ronald Breaker, Joseph Wolenski. mw 11.35-12.50 Sc (34) The principles and applications of cellular, molecular, and chemical techniques that advance biotechnology. The most recent tools and strategies used by industrial labs, academic research, and government agencies to adapt biological and chemical compounds as medical treatments, as industrial agents, or for the further study of biological systems. Prerequisite: mcdb 200b or 202a or 300a.
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3.00 Credits
Vivian Irish. m 7-8.50 p.m. Sc (0) Discussion and critical evaluation of selected research papers emphasizing recent advances in plant molecular biology. Topics include molecular genetic approaches to dissecting signaling events, pattern formation, epigenetic control of plant growth, and plant biotechnology. Focus on higher plants and model plant systems. Intendedfor advanced students afer completion of at least one MCDB core course or equivalent.
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3.00 Credits
Iain Dawson. t or th 7-8.50 p.m. Sc (0) The regulation and coordination of the eukaryotic cell cycle examined by means of a detailed critique of primary literature. Particular attention to the processes of development, differentiation, and oncogenic disease. Enrollment limited, with preference to juniors and seniors. Prerequisite or corequisite: mcdb 202a or 205b. Electronic permission key required. Students must contact the instructor prior to the first week of classes.
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3.00 Credits
Xing-Wang Deng, MartÃn GarcÃa-Castro, Scott Holley, Frank Slack, Weimin Zhong.tth 2.30-3.45 Sc (27) The molecular mechanisms of cell signaling and development in multicellular organisms and their relevance to human diseases. Topics include the basics of cell signaling and experimental model organisms, cell proliferation and death, cell specification and determination, cell migration, hormonal regulation, and environmental regulation. Intended for advanced students after completion of at least one MCDB core course or equivalent
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3.00 Credits
Emile Boulpaep, Frederick Sigworth. mwf9.25-10.15 Sc (32) Study of the processes that transfer molecules across membranes. Classes of molecular machines that mediate membrane transport. Emphasis on interactions among transport proteins in determining the physiologic behaviors of cells and tissues. Intended for seniors majoring in the biological sciences. Recommended preparation: mcdb 205b, 310a, 320a, or permission of instructor.
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3.00 Credits
Tian Xu, Michael Koelle, Shirleen Roeder, and staff. For description see under Molecular Biophysics & Biochemistry.
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3.00 Credits
Akiko Iwasaki, Peter Cresswell, Kevan Herold, Susan Kaech, Ruslan Medzhitov, David Schatz. mwf9.25-10.15 Sc (32) The development of the immune system. Cellular and molecular mechanisms of immune recognition. Effector responses against pathogens. Human diseases including allergy, autoimmunity, immunodeficiency, hiv/aids. After mcdb 300a.
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