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Course Criteria
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3.00 Credits
Lecture-2 hours; laboratory/discussion-3 hours.Prerequisite: Exercise Science 103 and/or Engineering 45 and/or consent of instructor. Structural and mechanical properties of biological tissues, including bone, cartilage, ligaments, tendons, nerves, and skeletal muscle. (Same course as Exercise Science 126.)-II. (II.) Hawkins
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:Biological Sciences 1A and Chemistry 8B. Restricted to upper division majors in sciences or engineering. Introduction to protein structure and function. Modern methods for designing, producing, and characterizing novel proteins and peptides. Design strategies, computer modeling, heterologous expression, in vitro mutagenesis. Protein crystallography, spectroscopic and calorimetric methods for characterization, and other techniques.-I. (I.) Sutcliffe- Goulden
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:Physics 9C, Engineering 35, Neurobiology, Physiology, and Behavior 101. Mechanical properties that govern blood flow in the microcirculation. Concepts in blood rheology and cell and tissue viscoelasticity, biophysical aspects of cell migration, adhesion, and motility.-III. (III.) Simon
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4.00 Credits
Lecture-3 hours; term paper. Prerequisite: Physics 9D and Mathematics 22B. Basic physics, engineering principles, and applications of biomedical imaging techniques including x-ray imaging, computed tomography, magnetic resonance imaging, ultrasound and nuclear imaging.-I. (I.) Cherry
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3.00 Credits
Lecture-3 hours. Prerequisite: Biological Sciences 1A and Mathematics 22B. Structural, mechanical and dynamic properties of DNA. Topics include DNA structures and their mechanical properties, in vivo topological constraints on DNA, mechanical and thermodynamic equilibria, DNA dynamics, and their roles in normal and pathological biological processes. Offered in alternate years.-III. Benham
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:Biological Sciences 1A; Chemistry 8B; upper division standing. Introduction to the basic concepts and techniques of biomolecular engineering such as recombinant DNA technology, protein engineering, and molecular diagnostics. Only three units of credit for students who have completed course 161S.-I. (I.) Yokobayashi
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2.00 Credits
Laboratory/discussion-6 hours. Prerequisite: course 161A; upper division Biomedical Engineering major. Introduction to the basic techniques in biomolecular engineering. Laboratory and discussion sessions will cover basic techniques in DNA cloning, bacterial cell culture, protein expression, and data analysis. GE Credit: SciEng.-III. (III.) Yokobayashi
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1.00 Credits
Lecture-1 hour. Prerequisite: Biological Sciences 1A; Chemistry 8B; course 161L concurrently. Basic concepts and techniques in biomolecular analysis, recombinant DNA technology, and protein purification and analysis. Not open for credit to students who have completed Biomedical Engineering 161A. Not offered every year.-IV. Yokobayashi
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4.00 Credits
Lecture-4 hours. Prerequisite: Mathematics 22B and Physics 9D. Introduction to fundamental physical mechanisms governing structure and function of biomacromolecules. Emphasis on a quantitative understanding of the nano- to microscale biomechanics of interactions between and within individual molecules, as well as of their assemblies, in particular membranes. Offered in alternate years.-II. Heinrich
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 106 (may be taken concurrently) or Engineering 103. Basic biofluid mechanics, Navier Stokes equations of motion, circulation, respiration and specialized applications including miscellaneous topics such as boundary layer flow. Not open for credit to students who have completed Mechanical Engineering 167C.-I. (I.)
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