The Southeastern Consortium for Microscopy of MacroMolecular Machines

  • Kelly, Deb (CoPI)
  • Moiseenkova-Bell, Vera (CoI)
  • Bullitt, Esther (CoI)
  • Liu, J.U.N. (CoI)
  • Taylor, Kenneth Allen (PI)
  • Dokland, Terje (CoI)
  • Sindelar, Charles Vaughn (CoI)
  • Schmidt-Krey, Ingeborg (CoI)
  • Melanie Diane, Ohi (CoI)
  • Radermacher, Michael (CoI)
  • Jiang, Qiu Xing (CoI)
  • Stewart, Phoebe (CoI)
  • Wright, Elizabeth (CoI)

Project: Research project

Description

Abstract The Southeastern Center for Microscopy of MacroMolecular Machines (SECM4) is a consortium of 15 Universities/Medical Centers with a total of 19 investigators throughout the Eastern United States studying a wide range of important biomedical projects as variable as high resolution virus structure, membrane protein structure, macromolecular complexes of various types, some isolated in active form from cells, bacterial ultrastructure, muscle filaments, spliceosomes, ribosomes complexes all of which will benefit from ready access to a high resolution electron microscope such as a Titan Krios equipped with a direct electron detector (DED). Human health implications extend from virus and bacterial pathogens to the understanding of diseases resulting form genetic mutations. The basic biology of cancer and heart disease is being studied in several member laboratories. The Titan Krios at Florida State University has been in operation since 2009 and recently has had its image recording device upgraded from CCD camera to a Direct Electron LLC, DE-20 direct electron detector positioned ahead of an existing imaging filter which removes inelastically scattered electrons thereby improving the image quality. Although we propose a robust plan to enable members to come to Florida State University, we propose creating a facility based on the synchrotron template currently in use at multiple sites X-ray crystallography beam lines around the country whereby users ship specimens to us and watch the data being collected as it comes off the microscope from the familiar confines of their own laboratories. We will provide sufficient preprocessing that consortium members can evaluate the prospects for obtaining a final high resolution structure from damage and motion corrected ?movie? images of their samples. The result will be a model for high throughput structure determination utilizing high-end instrumentation that can reveal the inner workings of complex macromolecules and subcellular structures.
StatusActive
Effective start/end date7/18/166/30/21

Funding

  • National Institutes of Health: $1,653,522.00
  • National Institutes of Health: $474,492.00
  • National Institutes of Health: $474,492.00
  • National Institutes of Health: $922,279.00

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electron counters
Titan
viruses
microscopy
high resolution
ribosomes
heart diseases
membrane structures
pathogens
preprocessing
mutations
muscles
CCD cameras
biology
macromolecules
clocks
crystallography
health
filaments
synchrotrons