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1 - 10 of 16 results for: CBIO

CBIO 101: Cancer Biology (PATH 101)

Experimental approaches to understanding the origins, diagnosis, and treatment of cancer. Focus on key experiments and discoveries with emphasis on genetics, molecular biology, and cell biology. Topics include carcinogens, tumor virology, oncogenes, tumor suppressor genes, cell cycle regulation, angiogenesis, invasion and metastasis, cancer genomics, cancer epidemiology, and cancer therapies. Discussion sections based on primary research articles that describe key experiments in the field. Satisfies Central Menu Areas 1 or 2 for Bio majors. Prerequisite: Biology or Human Biology core or equivalent, or consent of instructor.
Last offered: Winter 2018

CBIO 240: Molecular and Genetic Basis of Cancer

Required for first-year Cancer Biology graduate students. Focus is on fundamental concepts in the molecular biology of cancer, including oncogenes, tumor suppressor genes, and cellular signaling pathways. Emphasis will be given to seminal discoveries and key experiments in the field of cancer molecular biology. Course consists of two 1 hour lectures and one 2 hour discussion per week. Enrollment of undergraduates requires consent of the course director.
Terms: Aut | Units: 4

CBIO 241: Cellular Basis of Cancer

Focus on tumor cell biology including angiogenesis, metastasis, metabolism, stem cells, and other topics. Prerequisite: CBIO240

CBIO 242: Cellular and Clinical Aspects of Cancer

Required for first-year Cancer Biology graduate students, and for first- and second-year medical students intending to complete the Cancer Biology Scholarly Concentration. Focus is on the cellular biology of cancer, including discussion of basic biology including tumor angiogenesis, metabolism, and immunology, as well as clinical oncology and cancer therapeutics. Emphasis will be given to seminal discoveries and key experiments in the field of cancer biology and oncology. Course consists of two 1 hour lectures and one 2 hour discussion per week. Enrollment of undergraduates requires consent of the course director.
Terms: Spr | Units: 4

CBIO 243: Principles of Cancer Systems Biology

Focus is on major principles of cancer systems biology research that integrates experimental and computational biology in order to systematically unravel the complexity of cancer. The opportunity to embark on cancer systems biology research has been enabled by the rapid emergence of numerous and increasingly accessible technologies that provide global DNA, RNA and protein expression profiles of cells under a variety of conditions following environmental, drug and genetic perturbations. Course addresses the challenge of how to analyze high-dimensional and highly-multiplexed data in order to synthesize biologically and clinically relevant insights and generate hypotheses for further functional testing. Aims to broaden student exposure to the experimental and computational skills needed to apply the emerging principles of systems biology to the study of cancer.
Terms: Spr | Units: 3

CBIO 244: Lecture Series in Cancer Systems Biology

Presents new concepts in the field of cancer systems biology, demonstrating the integration of novel experimental and computational approaches for addressing outstanding critical questions in cancer biology. Invited speakers share insights about state-of-the-art trends and advice on navigating a career in cancer systems biology. Course required for CSBS Fellows.
Terms: Win | Units: 1

CBIO 245: Lecture Seminar Series in Cancer Biology Program

Invited speakers share insights about state-of-the-art trends. Presents new concepts in the field of cancer biology. Science talks presented by students.
Terms: Aut, Win, Spr | Units: 1 | Repeatable for credit

CBIO 246: Clinical Cancer Research Internship Program

As this is a limited enrollment course, graduate students interested in this course will contact must be affiliated with Cancer Biology Ph.D. Program and must contact the primary instructor Dr. Majeti and the course director Drs. Attardi and Sage by email.nA prerequisite for the course is the successful completion of the online training component for HIPAA certification: nnIn addition, the following is required:n1. Documented proof of Measles, Mumps & Rubella immunity in the form of vaccine dates or positive blood tests.n2. Documented proof of Varicella (chicken pox) immunity in the form of vaccine dates or positive blood tests.n3. Annual TB screening (PPD for US born or born in Canada and QFT for foreign born of high risk TB countries)n4. Annual Influenza vaccine (between Nov 1-March 31)nnIn the first component of the course, Dr. Majeti will identify an oncologist (adult or pediatrics) actively working in the clinic that the student can shadow that quarter for a minimum of 4 hours and will put the student in contact with the clinician. Shadowing hours can be at any time of the week or the weekend. The clinician will contact Dr. Majeti to confirm that the student has shadowed him/her for 4 hours.nnIn the second component of the course, Dr. Majeti will inform the student when the oncology clinical tumor board meets. The student must attend at least 3 tumor board sessions in the quarter (1h30 each).nnIn the third component of the course, the student will write a one-page analysis of a clinical paper related to cancer biology.
Terms: Aut, Win, Spr | Units: 1
Instructors: Majeti, R. (PI)

CBIO 260: Teaching in Cancer Biology

Practical experience in teaching by serving as a teaching assistant in a cancer biology course. Unit values are allotted individually to reflect the level of teaching responsibility assigned to the student.
Terms: Aut, Win, Spr | Units: 1-10 | Repeatable for credit
Instructors: Artandi, S. (PI) ; Attardi, L. (PI) ; Axelrod, J. (PI) ; Bassik, M. (PI) ; Beachy, P. (PI) ; Bendall, S. (PI) ; Bhutani, N. (PI) ; Blaschke, T. (PI) ; Blau, H. (PI) ; Bogyo, M. (PI) ; Brunet, A. (PI) ; Chang, H. (PI) ; Chen, J. (PI) ; Chu, G. (PI) ; Chua, K. (PI) ; Cimprich, K. (PI) ; Cleary, M. (PI) ; Cochran, J. (PI) ; Cohen, S. (PI) ; Contag, C. (PI) ; Crabtree, G. (PI) ; Diehn, M. (PI) ; Dixon, S. (PI) ; Engleman, E. (PI) ; Feldman, B. (PI) ; Felsher, D. (PI) ; Ferrell, J. (PI) ; Fire, A. (PI) ; Ford, J. (PI) ; Frydman, J. (PI) ; Fuller, M. (PI) ; Giaccia, A. (PI) ; Gozani, O. (PI) ; Graef, I. (PI) ; Graves, E. (PI) ; Hoffman, A. (PI) ; Jackson, P. (PI) ; Khavari, P. (PI) ; Kim, S. (PI) ; Kim, S. (PI) ; Koong, A. (PI) ; Krasnow, M. (PI) ; Kuo, C. (PI) ; Le, Q. (PI) ; Levy, R. (PI) ; Lipsick, J. (PI) ; Lowe, A. (PI) ; Majeti, R. (PI) ; Mallick, P. (PI) ; Marinkovich, M. (PI) ; Mitchell, B. (PI) ; Monje-Deisseroth, M. (PI) ; Morrison, A. (PI) ; Negrin, R. (PI) ; Nelson, W. (PI) ; Nolan, G. (PI) ; Nusse, R. (PI) ; Oro, A. (PI) ; Peehl, D. (PI) ; Plevritis, S. (PI) ; Pollack, J. (PI) ; Qi, S. (PI) ; Rabinovitch, M. (PI) ; Rando, T. (PI) ; Rankin, E. (PI) ; Rao, J. (PI) ; Rohatgi, R. (PI) ; Rosen, G. (PI) ; Sage, J. (PI) ; Scott, M. (PI) ; Skotheim, J. (PI) ; Stearns, T. (PI) ; Stockdale, F. (PI) ; Sun, Z. (PI) ; Sunwoo, J. (PI) ; Sweet-Cordero (PI) ; Wang, K. (PI) ; Weis, W. (PI) ; Weissman, I. (PI) ; Wernig, M. (PI) ; Winslow, M. (PI) ; Wong, A. (PI) ; Wysocka, J. (PI)

CBIO 275: Tumor Immunology (IMMUNOL 275)

Tumor Immunology focuses on the mechanisms by which tumors can escape from and subvert the immune system and conversely on the ability of innate and adaptive arms of the immune system to recognize and eliminate tumors. Topics include: tumor antigens, tumor immunosurveillance and immunoediting, tumor immunotherapy (including CAR-T and checkpoint antibodies) and cancer vaccines. Tracks the historical development of our understanding of modulating tumor immune response and discusses their relative significance in the light of current reserach findings. Prerequisite: for undergraduates, human biology or biology core.
Terms: Spr | Units: 3
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