The proposed research project is aimed at the development and the dissemination of computational methods that will be used in electron microscopy for tomographic studies at the molecular level. Originally, we have developed and implemented the methods for studying force production in muscle. We can show that these methods are also useful for a variety of other biological systems, including ice-embedded samples, to characterize structural heterogeneity. Our approach is based on electron tomography to obtain 3D reconstructions, and multivariate statistical analysis and classification for processing and interpretation of the resulting volumetric data. This differs from traditional single particle analysis, which is primarily concerned with 3D reconstruction from projection images, in that classification is used to group macromolecular motifs according to structural differences or conformations, instead of particle orientation. The further development and dissemination of the methodology will require effort in several areas. In order to obtain higher resolution, we need to create efficient procedures for contrast transfer function correction of tilt series data, and add the capability of processing dual axis tilt series to the software in order to produce tomograms with more isotropic resolution. In this context, effective algorithms for the treatment of the missing wedge, or missing pyramid for dual axis tilt series, will be implemented in the volume data analysis procedures. The methods will be validated with model data and tested with several types of specimens that are of great biological and clinical interest, including muscle sections, two-dimensional protein arrays on lipid monolayers, integral membrane proteins, and envelope proteins on SIV and HIV-1 virions. The software implementation of our procedures will be designed to be interoperable with other major software packages used in electron microscopy and will be distributed on the internet. This will ensure that our methods are readily available in other areas of biological research.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM082948-05
Application #
8135972
Study Section
Microscopic Imaging Study Section (MI)
Program Officer
Flicker, Paula F
Project Start
2007-09-28
Project End
2014-08-31
Budget Start
2011-09-01
Budget End
2014-08-31
Support Year
5
Fiscal Year
2011
Total Cost
$256,018
Indirect Cost
Name
Florida State University
Department
Physiology
Type
Schools of Arts and Sciences
DUNS #
790877419
City
Tallahassee
State
FL
Country
United States
Zip Code
32306
Winkler, Hanspeter; Wu, Shenping; Taylor, Kenneth A (2013) Electron tomography of paracrystalline 2D arrays. Methods Mol Biol 955:427-60
Winkler, Hanspeter; Taylor, Kenneth A (2013) Marker-free dual-axis tilt series alignment. J Struct Biol 182:117-24
Luther, Pradeep K; Winkler, Hanspeter; Taylor, Kenneth et al. (2011) Direct visualization of myosin-binding protein C bridging myosin and actin filaments in intact muscle. Proc Natl Acad Sci U S A 108:11423-8
Liu, Jun; Wright, Elizabeth R; Winkler, Hanspeter (2010) 3D visualization of HIV virions by cryoelectron tomography. Methods Enzymol 483:267-90
Wu, Shenping; Liu, Jun; Reedy, Mary C et al. (2010) Electron tomography of cryofixed, isometrically contracting insect flight muscle reveals novel actin-myosin interactions. PLoS One 5:
Amat, Fernando; Castano-Diez, Daniel; Lawrence, Albert et al. (2010) Alignment of cryo-electron tomography datasets. Methods Enzymol 482:343-67
Voss, Neil R; Lyumkis, Dmitry; Cheng, Anchi et al. (2010) A toolbox for ab initio 3-D reconstructions in single-particle electron microscopy. J Struct Biol 169:389-98
Wu, Shenping; Liu, Jun; Reedy, Mary C et al. (2009) Methods for identifying and averaging variable molecular conformations in tomograms of actively contracting insect flight muscle. J Struct Biol 168:485-502
Winkler, Hanspeter; Zhu, Ping; Liu, Jun et al. (2009) Tomographic subvolume alignment and subvolume classification applied to myosin V and SIV envelope spikes. J Struct Biol 165:64-77
Liu, Jun; Lin, Tao; Botkin, Douglas J et al. (2009) Intact flagellar motor of Borrelia burgdorferi revealed by cryo-electron tomography: evidence for stator ring curvature and rotor/C-ring assembly flexion. J Bacteriol 191:5026-36

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