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1 - 8 of 8 results for: BIOPHYS

BIOPHYS 241: Biological Macromolecules (BIOC 241, BIOE 241, SBIO 241)

The physical and chemical basis of macromolecular function. Topics include: forces that stabilize macromolecular structure and their complexes; thermodynamics and statistical mechanics of macromolecular folding, binding, and allostery; diffusional processes; kinetics of enzymatic processes; the relationship of these principles to practical application in experimental design and interpretation. The class emphasizes interactive learning, and is divided among lectures, in-class group problem solving, and discussion of current and classical literature. Enrollment limited to 30. Prerequisites: Background in biochemistry and physical chemistry recommended but material available for those with deficiency in these areas; undergraduates with consent of instructor only.
Terms: Aut | Units: 3-5

BIOPHYS 244: Mechanotransduction in Cells and Tissues (BIOE 283, ME 244)

Mechanical cues play a critical role in development, normal functioning of cells and tissues, and various diseases. This course will cover what is known about cellular mechanotransduction, or the processes by which living cells sense and respond to physical cues such as physiological forces or mechanical properties of the tissue microenvironment. Experimental techniques and current areas of active investigation will be highlighted. This class is for graduate students only.
Terms: Aut, Win | Units: 3

BIOPHYS 250: SEMINAR IN BIOPHYSICS

Required of Biophysics graduate students. Presentation of current research projects and results by faculty in the Biophysics program. May be repeated for credit. BIOPHYS 250 is a seminar course intended only for first year Biophysics and Structural Biology graduate students, to help them decide on which faculty labs they want to settle in.
Terms: Aut | Units: 1 | Repeatable for credit

BIOPHYS 279: Computational Biology: Structure and Organization of Biomolecules and Cells (BIOE 279, BIOMEDIN 279, CME 279, CS 279)

Computational techniques for investigating and designing the three-dimensional structure and dynamics of biomolecules and cells. These computational methods play an increasingly important role in drug discovery, medicine, bioengineering, and molecular biology. Course topics include protein structure prediction, protein design, drug screening, molecular simulation, cellular-level simulation, image analysis for microscopy, and methods for solving structures from crystallography and electron microscopy data. Prerequisites: elementary programming background ( CS 106A or equivalent) and an introductory course in biology or biochemistry.
Terms: Aut | Units: 3

BIOPHYS 300: Graduate Research

Investigations sponsored by individual faculty members. Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit
Instructors: Abu-Remaileh, M. (PI) ; Airan, R. (PI) ; Altman, R. (PI) ; Barron, A. (PI) ; Bintu, L. (PI) ; Block, S. (PI) ; Boettiger, A. (PI) ; Boxer, S. (PI) ; Brandman, O. (PI) ; Brunet, A. (PI) ; Brunger, A. (PI) ; Bryant, Z. (PI) ; Cegelski, L. (PI) ; Chaudhuri, O. (PI) ; Chiu, W. (PI) ; Chu, G. (PI) ; Chu, S. (PI) ; Cochran, J. (PI) ; Cremer, J. (PI) ; Cui, B. (PI) ; Das, R. (PI) ; Davis, M. (PI) ; Doniach, S. (PI) ; Dror, R. (PI) ; Druckmann, S. (PI) ; Dunn, A. (PI) ; Engelhardt, B. (PI) ; Feng, L. (PI) ; Ferrell, J. (PI) ; Fisher, D. (PI) ; Fordyce, P. (PI) ; Frydman, J. (PI) ; Garcia, C. (PI) ; Gevaert, O. (PI) ; Glover, G. (PI) ; Good, B. (PI) ; Goodman, M. (PI) ; Greenleaf, W. (PI) ; Harbury, P. (PI) ; Herschlag, D. (PI) ; Huang, K. (PI) ; Huang, P. (PI) ; Jacobs-Wagner, C. (PI) ; Jardetzky, T. (PI) ; Kachru, S. (PI) ; Kim, P. (PI) ; Kobilka, B. (PI) ; Kool, E. (PI) ; Kopito, R. (PI) ; Kornberg, R. (PI) ; Kundaje, A. (PI) ; Levin, C. (PI) ; Levitt, M. (PI) ; Lewis, R. (PI) ; Li, J. (PI) ; Li, L. (PI) ; Liphardt, J. (PI) ; Long, S. (PI) ; Lundberg, E. (PI) ; Mackall, C. (PI) ; Maduke, M. (PI) ; Martinez, T. (PI) ; Moerner, W. (PI) ; Pande, V. (PI) ; Petrov, D. (PI) ; Prakash, M. (PI) ; Puglisi, J. (PI) ; Quake, S. (PI) ; Red-Horse, K. (PI) ; Saggar, M. (PI) ; Salzman, J. (PI) ; Schnitzer, M. (PI) ; Sharaf, N. (PI) ; Skotheim, J. (PI) ; Snyder, M. (PI) ; Solomon, E. (PI) ; Spakowitz, A. (PI) ; Spudich, J. (PI) ; Tang, S. (PI) ; Ting, A. (PI) ; Wagner, A. (PI) ; Wandless, T. (PI) ; Wang, B. (PI) ; Zare, R. (PI) ; Zuchero, B. (PI) ; de la Zerda, A. (PI)

BIOPHYS 399: Directed Reading in Biophysics

Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit

BIOPHYS 801: TGR Project

Terms: Aut, Win, Spr, Sum | Units: 0 | Repeatable for credit

BIOPHYS 802: TGR Dissertation

Terms: Aut, Win, Spr, Sum | Units: 0 | Repeatable for credit
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