Single particle analysis at high resolution.

[1]  Matthew L. Baker,et al.  Structural Changes in a Marine Podovirus Associated with Release of its Genome into Prochlorococcus , 2010, Nature Structural &Molecular Biology.

[2]  Xing Zhang,et al.  3.3 Å Cryo-EM Structure of a Nonenveloped Virus Reveals a Priming Mechanism for Cell Entry , 2010, Cell.

[3]  Nikolaus Grigorieff,et al.  Subunit interactions in bovine papillomavirus , 2010, Proceedings of the National Academy of Sciences.

[4]  Wah Chiu,et al.  4.0-Å resolution cryo-EM structure of the mammalian chaperonin TRiC/CCT reveals its unique subunit arrangement , 2010, Proceedings of the National Academy of Sciences.

[5]  M. Levitt,et al.  Mechanism of Folding Chamber Closure in a Group II Chaperonin , 2010, Nature.

[6]  Wah Chiu,et al.  Structural mechanism of SDS-induced enzyme activity of scorpion hemocyanin revealed by electron cryomicroscopy. , 2009, Structure.

[7]  J. Frank,et al.  SPIDER image processing for single-particle reconstruction of biological macromolecules from electron micrographs , 2008, Nature Protocols.

[8]  Francisco J. Asturias,et al.  Conformational Flexibility of Metazoan Fatty Acid Synthase Enables Catalysis , 2008, Nature Structural &Molecular Biology.

[9]  Z. Zhou,et al.  3.88 Å structure of cytoplasmic polyhedrosis virus by cryo-electron microscopy , 2008, Nature.

[10]  Dong-Hua Chen,et al.  De novo backbone trace of GroEL from single particle electron cryomicroscopy. , 2008, Structure.

[11]  Christopher R Booth,et al.  Methods for aligning and for averaging 3D volumes with missing data. , 2008, Journal of structural biology.

[12]  Matthew L. Baker,et al.  Backbone structure of the infectious ε15 virus capsid revealed by electron cryomicroscopy , 2008, Nature.

[13]  S. Harrison,et al.  Near-atomic resolution using electron cryomicroscopy and single-particle reconstruction , 2008, Proceedings of the National Academy of Sciences.

[14]  W. Chiu,et al.  Structure of Halothiobacillus neapolitanus carboxysomes by cryo-electron tomography. , 2006, Journal of molecular biology.

[15]  Dong-Hua Chen,et al.  An Expanded Conformation of Single-ring Groel-groes Complex Encapsulates an 86 Kda Substrate , 2022 .

[16]  J. Frank Multivariate Data Analysis and Classification of Images , 2006 .

[17]  Eva Nogales,et al.  The orthogonal tilt reconstruction method: an approach to generating single-class volumes with no missing cone for ab initio reconstruction of asymmetric particles. , 2006, Journal of structural biology.

[18]  Wen Jiang,et al.  Fast rotational matching of single-particle images. , 2005, Journal of structural biology.

[19]  Wah Chiu,et al.  The pore structure of the closed RyR1 channel. , 2005, Structure.

[20]  Montserrat Samsó,et al.  Internal structure and visualization of transmembrane domains of the RyR1 calcium release channel by cryo-EM , 2005, Nature Structural &Molecular Biology.

[21]  N. Grigorieff,et al.  Noise bias in the refinement of structures derived from single particles. , 2004, Ultramicroscopy.

[22]  J M Carazo,et al.  XMIPP: a new generation of an open-source image processing package for electron microscopy. , 2004, Journal of structural biology.

[23]  Matthew L. Baker,et al.  A 9 Å single particle reconstruction from CCD captured images on a 200 kV electron cryomicroscope , 2004 .

[24]  S. Wakil,et al.  Experimental verification of conformational variation of human fatty acid synthase as predicted by normal mode analysis. , 2004, Structure.

[25]  R. Henderson,et al.  Optimal determination of particle orientation, absolute hand, and contrast loss in single-particle electron cryomicroscopy. , 2003, Journal of molecular biology.

[26]  Willy Wriggers,et al.  2D fast rotational matching for image processing of biophysical data. , 2003, Journal of structural biology.

[27]  Laurent Joyeux,et al.  Efficiency of 2D alignment methods. , 2002, Ultramicroscopy.

[28]  Yuyao Liang,et al.  IMIRS: a high-resolution 3D reconstruction package integrated with a relational image database. , 2002, Journal of structural biology.

[29]  W. Chiu,et al.  A 11.5 A single particle reconstruction of GroEL using EMAN. , 2001, Journal of molecular biology.

[30]  W Chiu,et al.  EMAN: semiautomated software for high-resolution single-particle reconstructions. , 1999, Journal of structural biology.

[31]  Baumeister,et al.  Electron Tomography of Single Ice-Embedded Macromolecules: Three-Dimensional Alignment and Classification , 1997, Journal of structural biology.

[32]  J. Frank Three-Dimensional Electron Microscopy of Macromolecular Assemblies: Visualization of Biological Molecules in Their Native State , 1996 .

[33]  J. Frank,et al.  Three‐dimensional reconstruction from a single‐exposure, random conical tilt series applied to the 50S ribosomal subunit of Escherichia coli , 1987, Journal of microscopy.

[34]  Harold P. Erickson,et al.  The Fourier Transform of an Electron Micrograph: Effects of Defocussing and Aberrations, and Implications for the Use of Underfocus Contrast Enhancement , 1970, Berichte der Bunsengesellschaft für physikalische Chemie.

[35]  D. DeRosier,et al.  Reconstruction of three-dimensional images from electron micrographs of structures with helical symmetry. , 1970, Journal of molecular biology.

[36]  A. Klug,et al.  Three Dimensional Reconstructions of Spherical Viruses by Fourier Synthesis from Electron Micrographs , 1970, Nature.

[37]  José María Carazo,et al.  Image processing for electron microscopy single-particle analysis using XMIPP , 2008, Nature Protocols.

[38]  G. Herman,et al.  Disentangling conformational states of macromolecules in 3D-EM through likelihood optimization , 2007, Nature Methods.

[39]  Wen Jiang,et al.  EMAN2: an extensible image processing suite for electron microscopy. , 2007, Journal of structural biology.

[40]  Nikolaus Grigorieff,et al.  FREALIGN: high-resolution refinement of single particle structures. , 2007, Journal of structural biology.

[41]  Jasmine Banks,et al.  SwarmPS: rapid, semi-automated single particle selection software. , 2007, Journal of structural biology.

[42]  J Bernard Heymann,et al.  Bsoft: image processing and molecular modeling for electron microscopy. , 2007, Journal of structural biology.

[43]  Chao Yang,et al.  SPARX, a new environment for Cryo-EM image processing. , 2007, Journal of structural biology.

[44]  Chao Yang,et al.  Unified 3-D structure and projection orientation refinement using quasi-Newton algorithm. , 2005, Journal of structural biology.

[45]  D. Kriegman,et al.  Automatic particle selection: results of a comparative study. , 2004, Journal of structural biology.

[46]  W Chiu,et al.  Fourier amplitude decay of electron cryomicroscopic images of single particles and effects on structure determination. , 2001, Journal of structural biology.

[47]  M van Heel,et al.  A new generation of the IMAGIC image processing system. , 1996, Journal of structural biology.

[48]  T. Baker,et al.  A model-based approach for determining orientations of biological macromolecules imaged by cryoelectron microscopy. , 1996, Journal of structural biology.

[49]  A Leith,et al.  SPIDER and WEB: processing and visualization of images in 3D electron microscopy and related fields. , 1996, Journal of structural biology.

[50]  M. Heel,et al.  Angular reconstitution: a posteriori assignment of projection directions for 3D reconstruction. , 1987 .

[51]  J. Frank,et al.  Use of multivariate statistics in analysing the images of biological macromolecules. , 1981, Ultramicroscopy.