CSB 802: TGR Dissertation
Terms: Aut, Win, Spr, Sum
| Units: 0
| Repeatable
for credit
Instructors:
Blau, H. (PI)
;
Chen, J. (PI)
;
Cimprich, K. (PI)
;
Elias, J. (PI)
;
Ferrell, J. (PI)
;
Meyer, T. (PI)
;
Mochly-Rosen, D. (PI)
;
Wandless, T. (PI)
;
Wysocka, J. (PI)
CSB 220: Chemistry of Biological Processes (BIOC 220)
The principles of organic and physical chemistry as applied to biomolecules. Goal is a working knowledge of chemical principles that underlie biological processes, and chemical tools used to study and manipulate biological systems. Prerequisites: organic chemistry and biochemistry, or consent of instructor.
CSB 240A: A Practical Approach to Drug Discovery and Development
Advancing a drug from discovery of a therapeutic target to human trials and commercialization. Topics include: high throughput assay development, compound screening, lead optimization, protecting intellectual property, toxicology testing, regulatory issues, assessment of clinical need, defining the market, conducting clinical trials, project management, and commercialization issues, including approach to licensing and raising capital.
CSB 240B: A Practical Approach to Drug Discover and Development
(Continuation of 240A) Advancing a drug from discovery of a therapeutic target to human trials and commercialization. Topics include: high throughput assay development, compound screening, lead optimization, protecting intellectual property, toxicology testing, regulatory issues, assessment of clinical need, defining the market, conducting clinical trials, project management, and commercialization issues, including approach to licensing and raising capital. Prerequisite: 240A.
CSB 250: The Biology of Chromatin Templated Processes
Topics include mechanisms of DNA replication; gene expressions regulation; DNA damage sensing and DNA repair; chromatin structure and function; and epigenetics and nuclear reprogramming. Prerequisite: working knowledge of molecular biology, biochemistry and genetics, or instructor consent.
CSB 278: Systems Biology (BIOC 278, BIOE 310, CS 278)
Complex biological behaviors through the integration of computational modeling and molecular biology. Topics: reconstructing biological networks from high-throughput data and knowledge bases. Network properties. Computational modeling of network behaviors at the small and large scale. Using model predictions to guide an experimental program. Robustness, noise, and cellular variation. Prerequisites: background in biology and mathematical analysis.
CSP 1A: Foundations
CSP 10: Foundations
CSP 19: Virginia Woolf's Foremothers: the Development of a British Woman's Novel
Aut (Paulson)
CSP 20: European Thought in the 20th Century
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