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Course Criteria
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4.00 Credits
(Also BIO 370) 4 hours; 4 credits Biochemistry and the living state. Regulation of energy-yielding and energy-requiring reactions in cells. Molecular components of cells, enzyme mechanisms, bioenergetics, and an introduction to biosynthetic principles. Prerequisite: CHM 256 Corequisite: PHY 110 or 120, or permission of the instructor
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4.00 Credits
(Also BIO 376) 4 hours; 4 credits Respiration, photosynthesis, membrane structure and transport, biosynthesis of macromolecules, biochemical genetics, and the regulation of metabolic activity in mammals. Prerequisite: CHM 370 Corequisite: PHY 150 or 160, or permission of the instructor
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4.00 Credits
8 laboratory hours; 4 credits Through a study of a commonly occurring genetic defect, this course introduces students to biochemical concepts and techniques used in current research. Techniques used include protein purification, enzymology, Western blotting, RNA isolation, DNA isolation, PCR-amplification of mutated regions of genes, cloning of PCR products into vectors, culturing of mammalian brain cells, immunocytochemistry, and retrieving and processing of genetic information using various databases and software packages. Prerequisite: CHM 240 or BIO 312 or BIO 352 Corequisite: CHM 370/BIO 370
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3.00 Credits
3 class hours, 3 laboratory hours; 4 credits The course covers general bonding theories of inorganic compounds, symmetry elements and point groups, acid-base properties, coordination chemistry and reaction mechanisms, organometallic chemistry, and an introduction to bioinorganic chemistry. Pre- or corequisite: CHM 256 or 330 or 336, or permission of instructor
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4.00 Credits
4 hours; 4 credits Theory and applications of molecular spectroscopy in gases and condensed phases, including rotation, vibration, electronic, and magnetic resonance techniques. Applications to structural problems in biochemistry and polymer chemistry. Pre- or corequisite: CHM 330 or 336
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2.00 Credits
(also BIO 443) 2 hours lecture, 4 hours laboratory; 4 credits A course to familiarize undergraduate students with the principles and practices of scanning electron microscopy and x-ray microanalyses. The course content will focus on the SEM and its modes of operation, electron beam-specimen interactions, image formation, generation of x-rays, x-ray spectral measurement and qualitative and quantitative x-ray analyses. The lecture will present the historical and theoretical backgrounds to these integrated topics, and the laboratory will provide hands-on experiences for biological, materials, and polymer samples. The designed experiments will allow students to apply the techniques learned in class to realistic systems, and the laboratory reports will help students develop the skill in scientific and technical writing. This course is directed toward advanced biology/chemistry students. Prerequisite: Permission of instructor
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4.00 Credits
4 hours; 4 credits Principles of macromolecular synthesis by radical chain, ionic chain, step, and ring-opening polymerizations. Copolymerization, stereochemical regulation, and polymer reactions. Characterization of polymers with respect to molecular structure, shape, size distribution, and crystallineamorphous structure. Prerequisites: CHM 256, 330, and 336; permission of the instructor
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2.00 Credits
2 hours; 2 credits This course is for those students interested in learning how to speak Mandarin Chinese to meet their educational and personal goals, or to address special needs in learning Mandarin. The course will focus on training the students’ oral communicational skills through selected reallife situations and topics. The course will also introduce the phonetic system of Pinyin, some conversational skills, and sentence patterns. Cantonese or other dialect speakers can also use the course to practice the official Mandarin pronunciation and oral language. This course does not fulfill the General Education requirement. Prerequisite: Permission of the Department of Modern Languages.
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