UNM Biophysics: Difference between revisions
Line 6: | Line 6: | ||
<gallery> | <gallery> | ||
Image:Chef solo square.JPG|[[User:Steven J. Koch|Steve Koch]], [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://optics.unm.edu/ Optics], [http://www.chtm.unm.edu/ CHTM]<br>Single-molecule biophysics, kinesin, DNA unzipping | Image:Chef solo square.JPG|[[User:Steven J. Koch|Steve Koch]], [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://optics.unm.edu/ Optics], [http://www.chtm.unm.edu/ CHTM]<br>Single-molecule biophysics, kinesin, DNA unzipping | ||
Image: | Image:Thomas james.jpg| Jim Thomas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://optics.unm.edu/ Optics]<br>We are using fluorescence microscopy and fluctuation analysis to understand cellular membranes, membrane mimics, and lipid monolayers. <br>The research has applications to understanding intracellular signaling via cell membrane receptors, and to the development of biomimetic materials (such as lipid coated microbubbles) for biomedical applications. | ||
Image:ComingSoon.jpg| Susan Atlas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics] | Image:ComingSoon.jpg| Susan Atlas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics] | ||
Image:ComingSoon.jpg| Keith Lidke, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics] | Image:ComingSoon.jpg| Keith Lidke, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics] |
Revision as of 22:23, 27 October 2010
The University of New Mexico is the hub of a strong and growing biophysics research environment in New Mexico. If you're looking for a graduate research experience that includes exciting cellular and molecular biophysics research and a beautiful southwest climate, then we encourage you to look at our many programs!
Investigators
-
Steve Koch, Physics, Optics, CHTM
Single-molecule biophysics, kinesin, DNA unzipping -
Jim Thomas, Physics, Optics
We are using fluorescence microscopy and fluctuation analysis to understand cellular membranes, membrane mimics, and lipid monolayers.
The research has applications to understanding intracellular signaling via cell membrane receptors, and to the development of biomimetic materials (such as lipid coated microbubbles) for biomedical applications. -
Susan Atlas, Physics
-
Keith Lidke, Physics
-
Diane Lidke, Pathology
-
Evan Evans, Biomedical Engineering, CHTM
Optical tweezers, single-molecule biophysics, ligand-receptor interactions -
David Keller, Chemistry