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Overview The Thesis Defense is a presentation of the student's independent research topic including an overview of the experiments completed and a summary of the analyzed data and results. Most students are able to complete their Ph D within five to six years after entering the Biophysics Program. The Thesis Defense must be completed within five years after achieving dissertator status. For more information on this policy, see the Graduate School Academic Policies and Procedures website.
Program Code: PHS-MS-A The Department of Physiology and Biophysics encourages research staff members working for Case Western Reserve University, University Hospitals of Cleveland, The Cleveland Clinic, and area biotechnology companies to expand their critical research knowledge and skills by enrolling in our Master's of Science in Physiology and Biophysics program. This program, the Tech Master's Program, is specifically designed for staff working full time. Each employer has their own policy on allowing staff to take classes and enroll in graduate programs. CWRU's policy is to allow staff, with their supervisor's permission, to take up to 6 credit hours per term, with tuition being covered by CWRU as part of the employee benefit package. Staff are expected to make up the time they spend in class during the day after hours.
During the course of thesis research, the Student Advisory Committee will assist the student and the thesis advisor in defining the nature and scope of the research project that will form the basis of the doctoral dissertation. thesis in Physiology & Biophysics is a culmination of a student's independent laboratory research. Students are required to remain in residence until the thesis research has been completed to the satisfaction of the Thesis Examination Committee. For a waiver of this requirement, the student must first submit a request in writing to the Student Advisory Committee. This request is then reviewed by the Departmental Graduate Student Committee which makes a recommendation to the Chairman of the Department for a final decision.
The Department of Molecular Physiology and Biophysics (MPB) admits students seeking to gain the Doctor of Philosophy degree. This document describes departmental requirements and procedures for the graduate programs in MPB. degree program is offered via the Medical Scientist Training Program (MSTP). Actual timing depends on the students performance and on the research project undertaken. Students with Bachelor's degrees enter the Interdisciplinary Graduate Program (IGP) or the Quantitative & Chemical Biology Program (QBP) and complete the Fall and Spring semesters of the first graduate school year before electing to complete their training in MPB. Table 1 summarizes the general timetables for progression toward the Ph. Timing for students entering with Masters or Doctorate degrees also depends on the number of transferred academic credits (which must be approved by the Graduate Education Committee [GEC]). More advanced students (i.e., already having graduate degrees) also are considered for the Ph. program by direct application to the Director of Graduate Studies (DGS) in MPB. Students choose laboratories for research rotations during initial stages of their graduate school career in order to ensure appropriate selection of research area and preceptor for their thesis research. Rotations for students entering via the IGP (currently four) are administered by the IGP, and may be taken from any IGP affiliated department during the Fall and Spring semesters of the first year following an initial research orientation course.
E-mail: biophysics@life.Major: Biophysics and Quantitative Biology Degrees offered: M. In rare circumstances and with special permission of the director and advisor, a current student may obtain a terminal master's degree after meeting the requirements of the degree. D.) in Biophysics and Quantitative Biology and Doctor of Medicine (M. Biophysics and Quantitative Biology offers a doctor of philosophy degree program. Medical Scholars Program: Doctor of Philosophy (Ph. Biophysics students are not admitted initially into the program for a master’s degree. Opportunity also exists for specializing in computational science and engineering within the department's graduate program via the Computational Science and Engineering (CSE) Concentration.
If research is: quantitative in nature, lab course required (BIOC 455, PHYS 598BP, PHYS 598OM or equivalent). Protein-Lipid Interactions—Crofts, Das, Fratti, Gennis, Kong, Oldfield, Rienstra, Sligar, and Tajkhorshid. Macromolecular Structure—Aksimentiev, Belmont, Crofts, Das, Gerlt, Grosman, Huang, Jin, Kong, Leckband, Y Lu, Martinis, Nair, Oldfield, Olsen, Procko, Rienstra, Schroeder, K Schulten, Selvin, Silverman, Sligar, and Tajkhorshid. In order for the University to calculate the overall Grade Point Average (GPA), the number of hours for a course is multiplied by the numerical equivalent of the letter grade received. experimental in nature, quantitative course required (BIOP 576, BIOP 586C, BIOE 598AGB, ANSC 449, MCB 432 or equivalent). This is done for all graded courses and the sum of all graded courses is divided by the total number of graded hours. The Graduate College minimum GPA requirement for biophysics is 3.00 in all coursework. Passage based on: written exam, oral exam, total academic record, student's objectives and motivation, research potential, acceptance into research group (additionally, International students must pass EPI).20-30 minute oral exam to examine the validity of the research and test the student's fitness to carry out independent research. 20-30 page proposal submitted to committee; 1-page project summary report to Biophysics office. Hands-On Course in Computational Biology The course will explore physical models and computational approaches used for the simulation of biological systems and the investigation of their function at an atomic level. Cellular Biophysics—Belmont, Chemla, Dar, Gruebele, Hergenrother, Jin, Kong, Kuhlman, Leckband, Y Lu, Oldfield, Schroeder, Z Schulten, and Zhang. Dynamics of Macromolecules—Aksimentiev, Belmont, Chemla, Gennis, Grosman, Gruebele, Hammes-Schiffer, Huang, Leckband, Y Lu, Martinis, Nair, Oldfield, Rienstra, Z Schulten, Schroeder, Selvin, Shukla, Silverman, Sligar, and Tajkhorshid. Fluorescence Spectroscopy—Dar, Gennis, Gruebele, Leckband, Y Lu, Schroeder, Selvin, and Zimmerman. Kinetics—Crofts, Dar, Das, Gerlt, Grosman, Gruebele, Jakobsson, Leckband, Y Lu, Martinis, Oldfield, K Schulten, Shukla, Silverman, and Sligar. Computational Biophysics—Aksimentiev, Dar, Hammes-Schiffer, Hergenrother, Huang, Jakobsson, Leckband, Y Lu, Nair, Oldfield, Olsen, Rienstra, K Schulten, Z Schulten, Shukla, Sinha, and Tajkhorshid. Membrane Biophysics—Aksimentiev, Crofts, Das, Fratti, Gennis, Gillette, Grosman, Jakobsson, Kraft, Leckband, Oldfield, Rienstra, Selvin, Shukla, Sligar, and Tajkhorshid. Molecular Biophysics—Aksimentiev, Belmont, Chemla, Crofts, Das, Gerlt, Grosman, Gruebele, Hammes-Schiffer, Huang, Jin, Leckband, Y Lu, Martinis, Nair, Oldfield, Olsen, Rienstra, Schroeder, K Schulten, Z Schulten, Selvin, Shukla, Silverman, Sligar, Tajkhorshid, and Zhao. If a student’s overall GPA is below 3.00 for a semester, a warning letter will be sent from the Graduate College. NOTES: Tutorials may NOT be taken on the same topic as a lab rotation and cannot be taken with advisor!! Physical concepts governing the structure and function of biological macromolecules; general properties, spatial structure, energy levels, dynamics and functions, and relation to other complex physical systems such as glasses; recent research in biomolecular physics; physical techniques and concepts from theoretical physics emphasized. Hands-on introduction to the simulation of biological molecules and bioinformatics. Lab Rotation #1 Laboratory research methods; familiarization of first-year graduate students with experimental methods used in research in Biophysics & Quantitative Biology. Lab Rotation #2 Laboratory research methods; familiarization of first-year graduate students with experimental methods used in research in Biophysics & Quantitative Biology. Lab Rotation #3 Laboratory research methods; familiarization of first-year graduate students with experimental methods used in research in Biophysics & Quantitative Biology. Special Topics in Biophysics (Tutorials) Advanced course/tutorials on topics of interest in biophysics, such as electrophysiology, radiation biology, bioenergetics, protein structure, or the physics of muscular contraction. The course will be based on case studies including the properties of membranes, mechanisms of molecular motors, trafficking in the living cell through water and ion channels, signaling pathways, visual receptors, and photosynthesis. For Independent Study Registration In This Course, Students Must Contact The Program Office, 179 Loomis. Bioenergetics—Crofts, Hammes-Schiffer, Y Lu, and Sligar. If, after the completion of additional graded hours, the GPA has not been raised, the student will be placed on limited status. Tutorials = Meet with professor to determine subject to research. Brain, Behavior & Information Processing Same as MCB 419, BIOE 419 and NEUR 419. Designed for students without appreciable background in biology and chemistry. Topics included the principles of molecular modeling, molecular dynamics and monte carlo simulations, structure prediction in the context of structural and functional genomics, and the assembly of integrated biological systems. Required of all first-year students majoring in Biophysics & Quantitative Biology. Required of all first-year students majoring in Biophysics & Quantitative Biology. Required of all first-year students majoring in Biophysics & Quantitative Biology. Relevant physical concepts, mathematical techniques, and computational methods will be introduced, including force fields and algorithms used in molecular modeling, molecular dynamics simulations on parallel computers and steered molecular dynamics simulations. These topics can also be used for BIOP 586 (tutorial) topics and BIOP 599 (thesis research). Bioelectricity—Grosman, Jakobsson, Y Lu, and Sligar. If the student is still on limited status the following semester, they will not be allowed to register for subsequent semesters.
The current societal need for advanced research in radiation biology and biophysics, is getting extremely relevant when modern societies are facing several clinical pathologies related to aging, oxidative stress and cancer. Probably the best example is that in 2008 an estimated 12.7M new cases of cancer were diagnosed worldwide, i.e., today, cancer accounts for one in every eight deaths worldwide – more than HIV/AIDS, tuberculosis, and malaria combined (Cancer Research UK and American Cancer Society). Also, environmental and/or occupational exposure to radiation is becoming more relevant as different professional’s awareness is increasing. These have had particular attention not only from the scientific community but also from political agents at national and European level. Ra BBit was born to fulfil a gap in the current demand in the different related research areas.
Graduate Admissions | Course List | Academic Calendar The Biochemistry and Molecular Biophysics graduate option has been established as an interdisciplinary program at the interface of biology, chemistry, and physics that seeks to understand the chemistry of life. Thus, biochemists and molecular biophysicists study the atomic structure and folding of biopolymers; their interactions with each other and with small molecules; and the roles of particular biopolymers and biopolymer assemblies in cellular physiology. The basic building block of life is the cell; the intellectual focus of modern biochemistry and molecular biophysics is to understand how individual parts interact to give cells their wide spectrum of functions. In particular, biochemistry and molecular biophysics addresses the principles through which the individual components of cells combine in an orderly self-association to produce their form, their function, and their dynamic behavior. An integrated approach to graduate study in biochemistry and molecular biophysics has been organized primarily by the Division of Chemistry and Chemical Engineering and the Division of Biology and Biological Engineering. The goal of the doctoral program is to prepare students to become leading scientists in academia and industry.
Welcome to the Current Topics in Biophysics (SC/BPHS 2090.03, crosslisted as SC/BIOL 2090.03) course website, containing course information, handouts, and important news for the course. Please visit often because information will sometimes be posted on this website before being announced in class. Here is information about the Biophysics degree program. A recent article in the Journal of Applied Physics: The Evolution of Airplanes takes biological scaling one step further, including airplanes in a graph of velocity versus mass. Even though the energetics of a combustion-driven airplane are different, airplanes don't deviate that much from the linear fit of a log-log plot. The authors claim "The evolution of technology, river basins, and animal design is one phenomenon, and it belongs in physics.", but life is a bit more complicated than that.