UNM Biophysics: Difference between revisions
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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>[[Koch_Lab|Research group page]]<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>[[Koch_Lab|Research group page]]<br>Single-molecule biophysics, kinesin, DNA unzipping | ||
Image:Thomas james.jpg| Jim Thomas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://optics.unm.edu/ Optics]<br>Fluorescence microscopy and fluctuation analysis to understand cellular membranes, membrane mimics, and lipid monolayers. Applications to intracellular signaling and biomimetic materials for biomedical applications. | Image:Thomas james.jpg| Jim Thomas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://optics.unm.edu/ Optics]<br>Fluorescence microscopy and fluctuation analysis to understand cellular membranes, membrane mimics, and lipid monolayers. Applications to intracellular signaling and biomimetic materials for biomedical applications. | ||
Image:Atlas_susan.jpg| Susan Atlas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://www.hpc.unm.edu/ CARC]<br>Reactive molecular dynamics simulation of motor proteins and nano/bio systems using density functional theory and novel multiscale charge-transfer force fields; machine learning, pattern recognition, and network analysis of gene expression in cancer; structural bioinformatics. | Image:Atlas_susan.jpg| Susan Atlas, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://www.hpc.unm.edu/ CARC]<br>[http://www.phys.unm.edu/CompMaterials/ Research group page]<br>Reactive molecular dynamics simulation of motor proteins and nano/bio systems using density functional theory and novel multiscale charge-transfer force fields; machine learning, pattern recognition, and network analysis of gene expression in cancer; structural bioinformatics. | ||
Image:Lidke keith.jpg| Keith Lidke, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics]<br>[http://panda3.phys.unm.edu/~klidke/research.html Research group page]<br>Fluorescence Imaging Techniques: Single Particle Tracking, Single Molecule Imaging and Superresolution techniques for measuring protein-protein interactions at the sub-cellular level. | Image:Lidke keith.jpg| Keith Lidke, [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics]<br>[http://panda3.phys.unm.edu/~klidke/research.html Research group page]<br>Fluorescence Imaging Techniques: Single Particle Tracking, Single Molecule Imaging and Superresolution techniques for measuring protein-protein interactions at the sub-cellular level. | ||
Image:Peter Goodwin.jpg| Peter Goodwin, Adjunct [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://cint.lanl.gov/peter_goodwin.shtml LANL/CINT]<br>[http://cint.lanl.gov/peter_goodwin.shtml Research group page]<br>Single-molecule spectroscopy and high-resolution optical imaging. Correlated atomic force and single-molecule fluorescence imaging for simultaneous single-molecule force-extension and fluorescence measurements. Single-molecule imaging of cellulase activity on cellulose and studies of riboswitch conformational dynamics. | Image:Peter Goodwin.jpg| Peter Goodwin, Adjunct [http://panda.unm.edu/pandaweb/graduate/index.phtml Physics], [http://cint.lanl.gov/peter_goodwin.shtml LANL/CINT]<br>[http://cint.lanl.gov/peter_goodwin.shtml Research group page]<br>Single-molecule spectroscopy and high-resolution optical imaging. Correlated atomic force and single-molecule fluorescence imaging for simultaneous single-molecule force-extension and fluorescence measurements. Single-molecule imaging of cellulase activity on cellulose and studies of riboswitch conformational dynamics. | ||
Revision as of 22:57, 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
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Steve Koch, Physics, Optics, CHTM
Research group page
Single-molecule biophysics, kinesin, DNA unzipping -
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Susan Atlas, Physics, CARC
Research group page
Reactive molecular dynamics simulation of motor proteins and nano/bio systems using density functional theory and novel multiscale charge-transfer force fields; machine learning, pattern recognition, and network analysis of gene expression in cancer; structural bioinformatics. -
Keith Lidke, Physics
Research group page
Fluorescence Imaging Techniques: Single Particle Tracking, Single Molecule Imaging and Superresolution techniques for measuring protein-protein interactions at the sub-cellular level. -
Peter Goodwin, Adjunct Physics, LANL/CINT
Research group page
Single-molecule spectroscopy and high-resolution optical imaging. Correlated atomic force and single-molecule fluorescence imaging for simultaneous single-molecule force-extension and fluorescence measurements. Single-molecule imaging of cellulase activity on cellulose and studies of riboswitch conformational dynamics. -
Diane Lidke, Pathology
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Evan Evans, Biomedical Engineering, CHTM
Optical tweezers, single-molecule biophysics, ligand-receptor interactions -
David Keller, Chemistry
Bio-physical Chemistry, Molecular Machines, Single-Molecule Experiment and Theory, DNA Polymerases, Atomic Force Microscopy, Fluorescence Microscopy
