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Course Criteria
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0.00 Credits
Non-credit laboratory to accompany BIOL 8700. May also be offered as ENT 8701. Coreq: BIOL 8700.
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1.00 Credits
Cellular and developmental biology, ecology, behavior, evolutionary biology, molecular biology, physiology, systematics and other topics of interest to graduate students in the biological sciences. May be repeated for credit, but only if different topics are covered.
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1.00 Credits
Specialized laboratory experiences in cellular and developmental biology, ecology, behavior, evolutionary biology, molecular biology, physiology, systematics and other topics of interest to graduate students in the biological sciences. May be repeated for credit, but only if different topics are covered.
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3.00 Credits
Continuation of BIOL 6870, offering graduate students practical training on light and electron microscopes. Proficient students become approved end users by performing approved, independent imaging projects. Preq: BIOL 6870 and consent of instructor. Coreq: BIOL 8881.
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0.00 Credits
Non-credit laboratory to accompany BIOL 8880. Coreq: BIOL 8880.
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3.00 Credits
Analysis of single and multidimensional steady-state and transient problems in momentum, mass, and energy transfer in biological systems. Mathematical similarities and differences in these mechanisms are stressed, and mathematical descriptions of physiological and engineering systems are formulated. Preq: CHE 3300 and MATH 2080.
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3.00 Credits
Study of principal methods of separation and purification of bioproducts, such as proteins, amino acids, and pharmaceuticals. Topics include analytical bioseparations, membrane separations, sedimentation, cell disruption, extraction, adsorption, chromatography, precipitation, crystallization, and drying. Preq: CHE 3300; and BCHM 3010 or BCHM 3050 or BCHM 4230.
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3.00 Credits
Introduction to basic principles of biomolecular engineering: the purposeful manipulation of biological molecules and processes applied to problems and issues in the life sciences, biotechnology, and medicine. Topics include carbohydrates, proteins, nucleic acids, and lipids with emphasis on their structure-property-function relations; molecular recognition; biochemical pathway engineering; and cell growth. Preq: CH 2240; and one of CH 3300 or CH 3310 or CHE 2200.
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3.00 Credits
Development of methodologies used to design, fabricate, and apply biosensors and bioelectronic devices for the environmental, medical, and chemicals industries. Application of the fundamentals of measurement science to optical, electrochemical, mass, and thermal means of signal transduction. Use of the fundamentals of surface science to interpret bio-immobilization and biomolecule-surface interactions. Preq: CHE 3300; and BCHM 3010 or BCHM 3050.
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3.00 Credits
Students learn principles of membrane science and technology and study membrane applications in the biotechnology and biomedical industries. Advanced topics include surface modification of membranes, synthesis of porous membranes for biomedical applications such as tissue engineering, environmentally responsive membranes, and membrane-based biomedical devices. Preq: CHE 3300.
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