MCB 493

Fall 2012 Part of Term 1

Part of Term 1
Aug 27-Dec 12

Credit: 1 TO 4 hours.

Discussion of current topics of interest within the broad domain of molecular and cellular biology; seminar or lecture format. Topics vary.

May be repeated to a maximum of 12 hours. Prerequisite: Junior standing and consent of instructor.

MCB 493 class schedule data for fall 2012
CRN Type Section Time Day Location Instructor Section Details
58976
Lecture-Discussion
BNM
3:30PM -4:50PM
TR
403B2 Engineering Hall
Nardulli, A
Saif, M
Murphy, C
Bashir, R
Part of Term:
1
Date Range:
08/27/12-12/12/12
Credit:
3 hours
Section Info:
BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology will provide an introduction to basic concepts of nanotechnology in mechanobiology and in cancer. This is a highly interdisciplinary field of research where knowledge from various disciplines will be presented and integrated. The course will be team taught by faculty from Engineering and LAS. There will be 4 main sections of the course: (i) introduction to nanotechnology and nanomedicine, (ii) biological concepts and cancer biology, (iii) applications in cancer, i.e. cancer nanotechnology, and (iv) applications in cellular mechanics, i.e. mechanobiology and nanotechnology. The course is intended for first year graduate students and upper level undergraduates. This section of MCB 493 is not approved for advanced MCB credit.
56452
Laboratory-Discussion
TJA
3:30PM -4:30PM
W
Location Pending
Anastasio, T
Part of Term:
1
Date Range:
08/27/12-12/12/12
Credit:
3 hours
Section Info:
Neural Systems Modeling The purpose of this independent study is to give students hands-on experience in using computers to model neural systems. A neural system is a system of interconnected neural elements, or units. Students will use and modify existing computer programs that simulate real neural systems. They will compare the behavior of the model units with neurophysiological data on real neurons. The neural system models will all perform a useful computation, and the similarity between the behaviors of model units and real neurons will give students insight into how the real nervous system may actually work. Students will independently follow a written tutorial on neural systems modeling, and will meet with the instructor on a weekly basis for guidance on programming and to discuss the implications of the simulations. Meetings will take place in 4031 Beckman. This section of MCB 493 is not approved for advanced MCB credit.
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