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Course Criteria
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3.00 Credits
Students will learn how to use a statistical software package to do their analyses. A wide range of advanced multivariate statistical analyses will be presented including ANOVA (one-way, two-way, ANCOVA, repeated measures, mixed effects), linear regression, logistic regression, survival analysis, principle component analysis, factor analysis, cluster analysis, and discriminant analysis.
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3.00 Credits
Introduction to auditory science. P: IC.
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3.00 Credits
This course presents a quantitative description of both metabolic networks and the molecular signaling pathways controlling the various phenotypes of living cells. Topics include an introduction to high-throughput technologies for genomics, epigenomics/ epigenetics, transcriptomics, interferomics (RNA interference), proteomics, and metabolomics, as well as applications to biomarker discovery and drug development. P: IC.
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2.00 Credits
Directed readings in appetite control and energy regulation. P:IC
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3.00 Credits
This course covers cellular and molecular events underlying animal development and cell differentiation in vertebrate and invertebrate organisms. Topics will include the early body plan, cell determination and diversity, organogenesis, morphogenesis, and stem cells, and includes vertebrate (mouse, chick, frog, fish, human) and invertebrate (fly, worm) models.
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3.00 Credits
Detailed consideration of the functional aspects of cell biology with emphasis on eukaryotic cells. Topics include signal transduction, neuronal cell biology, synthesis, transport and processing of secretory proteins, extracellular matrix proteins, cell adhesions, and cytoskeleton. P: IC
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3.00 Credits
Detailed consideration of the structure, function and synthesis of DNA, RNA and proteins with emphasis on eukaryotic cells. Topics include DNA structure, transcription, translation, replication, recombinant DNA technology, eukaryotic viruses and control of cellular differentiation in normal and abnormal states such as cancer. P: IC
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3.00 Credits
This course covers functional aspects of molecular structure, peptide chemistry, and molecular interactions. Topics vary will change with each iteration of the course permitting students to repeatedly enroll in the course but with each covering a different topic. Nine credit hours are the maximal applicable toward the degree. P: IC.
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3.00 Credits
This course covers functional aspects of eukaryotic cells including gene regulation/expression, signal transduction, and cell-cell and cell-substrate interactions. Topics vary will change with each iteration of the course permitting students to repeatedly enroll in the course but with each covering a different topic. Nine credit hours are the maximal applicable toward the degree. P: IC.
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3.00 Credits
This course covers specific aspects of physiology and pathophysiology of whole organisms and organ systems as well as cellular physiology. Topics vary will change with each iteration of the course permitting students to repeatedly enroll in the course but with each covering a different topic. Nine credit hours are the maximal applicable toward the degree. P: IC.
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