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Course Criteria
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1.00 Credits
Collection, preservation, identification, taxonomy and biology of medically important arthropods, especially insects. Survey collection required for graduate credit.
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1.00 Credits
Training and preparation for graduate work in genetic engineering, molecular ecology, or molecular medical research. Techniques include DNA isolation, cloning, southern blotting, PCR, DNA sequencing, and computer analysis of DNA sequence.
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1.00 Credits
Experimental aspects of cellular physiology and metabolism with emphasis on techniques in colorimetry and enzyme analysis. (0-3)
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1.00 Credits
Modern experimental techniques of cell and developmental biology such as microscopy, mutant screening, immunoblotting, histochemistry, tissue culture, and cell adhesion assay will be covered during the course of laboratory exercises and students will have hands-on experience.
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3.00 Credits
Basic principles of resistance to disease, host-antigen interactions, immunologic response mechanisms, immunologic techniques, and correlations of disease and the immune response. (3-0)
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3.00 Credits
Identification, biology, and management of arthropod pests, especially insects, transmitting diseases affecting man, livestock and wildlife.
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3.00 Credits
Techniques and strategies pertinent to work in genomics, proteonomics, and genetic engineering as well as cellular processes such as DNA replication, message expression, and cell signaling. Capstone project on analysis and presentation of published research is required.
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3.00 Credits
Physiology and biochemistry of the cell; a correlation of the fine structure of the cell with metabolic pathways occurring therein. Undergraduate biology majors who choose this course to fulfill the physiology requirement must take both BIO 4307 and 4107.
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3.00 Credits
The mechanisms that regulate the development of multicellular organisms, from nematode to humans, will be examined using biochemical, genetic, and cell biological approaches. The course will investigate the role that gene regulation, cell-cell communication, cell adhesion, cell motility, signal transduction, and intracellular trafficking play in the commitment, differentiation and assembly of stem cells into specialized cell types and organs.
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3.00 Credits
Pathophysiology of disease with emphasis on immunology, communicable disease, neoplasia, heredity, congenital problems, and degeneration as expressed in each organ system.
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