ALBERT EINSTEIN CENTER FOR SYNCHROTRON BIOSCIENCES

  • Blasie, Kent J. (CoPI)
  • Chance, Britton (CoPI)
  • Chance, Mark R. (PI)
  • Almo, Steve (CoPI)
  • Anderson, Richard (CoPI)
  • Anni, Helen (CoPI)
  • Brenowitz, Michael D. (CoPI)
  • Burke, John (CoPI)
  • Chen, Terry (CoPI)
  • Crothers, Donald (CoPI)
  • Dauter, Zbigniew (CoPI)
  • Davies, David (CoPI)
  • Downard, Kevin M. (CoPI)
  • Fisher, Timothy (CoPI)
  • Franzen, Stephen (CoPI)
  • Goldsmith, Sharon (CoPI)
  • Heiney, Paul A. (CoPI)
  • Holmes, Kenneth C. (CoPI)
  • Hurley, James (CoPI)
  • Hurley, Jim (CoPI)
  • Ji, Xinhua (CoPI)
  • Kovacs, Kevin (CoPI)
  • Kravtsov, Irina (CoPI)
  • Lee, Caroline Caroline (CoPI)
  • Maleknia, Simin D. (CoPI)
  • Marinkovic, Nebojsa (CoPI)
  • Maroney, Michael J. (CoPI)
  • Maroney, Mike (CoPI)
  • Miller, Lisa M. (CoPI)
  • Morris, Ann-Tabor (CoPI)
  • Pedersen, Lars (CoPI)
  • Penner-Hahn, James E. (CoPI)
  • Powers, Linda S. (CoPI)
  • Pyle, Anna Marie (CoPI)
  • Que, Lawrence (CoPI)
  • Que Lawrence, Jr (CoPI)
  • Sagi, Irit (CoPI)
  • Scarrow, Robert C. (CoPI)
  • Scheuring, Eva (CoPI)
  • Seeman, Nadrian C. (CoPI)
  • Silva, Alberto (CoPI)
  • Snyder, Gary (CoPI)
  • Sonenberg, Nils (CoPI)
  • Sperber, Ellen (CoPI)
  • Studier, Bill (CoPI)
  • Sullivan, Michael D. (CoPI)
  • Sun, Peter (CoPI)
  • Toomey, John R. (CoPI)
  • Tran, Alex (CoPI)
  • Vanamee, Eva S. (CoPI)
  • Wlodawer, Alex (CoPI)
  • Yan, Honggao (CoPI)
  • Bubacco, Luigi (CoPI)
  • Caffrey, Martin (CoPI)
  • Chance, Mark R. (CoPI)
  • Kallenbach, Neville (CoPI)
  • Sharpe, Lee (CoPI)
  • Sinclair, Robert (CoPI)
  • Woodson, Sarah (CoPI)
  • Xie, Aihua (CoPI)
  • Yue, Kwok (CoPI)

Project: Research project

Project Details

Description

Continued progress in biomedical research requires the determination of structures not just of individual molecules but of macromolecular assemblies such as those that mediate essential cellular processes like transcription and replication. Synchrotron crystallography using an undulator source is a powerful tool with which to analyze the structure of assemblies with their large size and complexity. Understanding the dynamics of large assemblies and their intra-molecular rearrangements is a challenging problem. Time-resolved synchrotron x-ray footprinting is an ideal method for gaining insight into these important processes. Structural examination of macromolecules, cells, and tissues using microscopy techniques can be significantly enhanced with synchrotron infrared microspectroscopy. Both the far-and mid-infrared regions can be used to examine protein folding and dynamics, while microscopy, utilize to examine cells and tissues, provides chemically specific information about the biological processes under study. The Albert Einstein Center for Synchrotron Biosciences, with facilities and laboratories at the National Synchrotron Light Source and the Albert Einstein College of Medicine, is developing new biomedical technologies as core research projects in each of the three areas highlighted above. The core research is driven by twenty-one collaborative projects from the laboratories of well-funded investigators expert in the various research areas. The service function of the Resource Center also provide invaluable access to synchrotron light for macromolecular crystallography, EXAFS, and small-angle scattering studies of numerous NIH funded laboratories. Many of the biologically focused collaborative and service projects are impacted by more than one core technological activity. These inter- relationships give rise to significant synergy in the Resource Center's activities, particularly for projects involving macromolecular folding, transcriptional control, signal transduction, and polymerase function. Since the funding of the Resource Center two years ago, numerous faculty, staff, and students from the College of Medicine and from our fellow academic institutions in the New York Metropolitan area have become actively involved in these research activities. The Resource Center has become an important part of the College of Medicine's overall Biomedical Research Mission and is an important regional focus for biomedical research as well as an established national and international presence in synchrotron bioscience.
StatusFinished
Effective start/end date8/1/858/31/03

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