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Course Criteria
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2.00 Credits
Basic cellular events of plant development: cell division, cell-to-cell interaction, cell polarity, and cell death. Genetic control and environmental regulation of plant cells and their development. (2 hrs lect)
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4.00 Credits
Laboratory study of basic cellular events during plant development: advanced computer image analysis, cell and tissue measurement, in situ cell labeling, plant labeling, plant culture, sample isolation, and data analysis. Research paper required. (4 hrs lab)
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2.00 Credits
Molecular and cellular mechanisms of development, emphasizing animal systems and including cell cycle, gametogenesis, fertilization, morphogenetic movements, cytodifferentiation, cell interactions, pattern formation, gene expression, organogenesis, metamorphosis, regeneration, and aging. (2 hrs lect, 6 hrs lab)
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2.00 Credits
(3 cr; SP-2801, 2802; A-F only) Explores the evolution of interactions between species ranging from strongly antagonistic such as predator-prey interactions to strongly cooperative such as obligate mutualisms. The behavior, ecology, and genetics of interacting organisms are studied to understand their evolution. (2 hrs lect, 3 hrs lab)
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2.00 Credits
Viruses and hosts; effects of viral infections on cells; expression of viral genome in procaryotic and eucaryotic cells; epidemiology and pathogenesis of viruses, including emerging ones; viral evolution. (2 hrs lect, 2 hrs lab)
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2.00 Credits
Principles and practices of basic and advanced immunological lab techniques. (2 hrs lect, 6 hrs lab)
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2.00 Credits
Study of plant functions, emphasizing higher plants. Biochemical and physical aspects of plants: growth, nutrition, metabolism, and relationship to light, water, and other environmental factors. Research paper required of graduate students. (2 hrs lect)
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6.00 Credits
Experimental basis for interpretation of certain physiological phenomena in plants; research problems, methods, and techniques. Research problem required of graduate students. (6 hrs lab)
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3.00 Credits
Mammalian tissues, organs, systems studied at light and electron microscopic levels. Cellular elements (epithelium, peripheral blood, connective tissues, mineralized tissue and joints, muscle, nerve, cardiovascular, myeloid); organs; systems (lymphoid, respiratory, urinary, integumentary, digestive, endocrine, reproductive).
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3.00 Credits
Microorganisms in natural environments: diversity, distribution, energetics, and growth of heterotrophic and autotrophic microbes in oxic and anoxic habitats. Roles of microbial populations and communities in biogeochemical cycling, ecosystem functioning, landscapes, and industrial, agricultural, and environmental applications.
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