Cryoelectron Tomographic Analysis of an HIV-neutralizing Protein and Its Complex with Native Viral gp120*
暂无分享,去创建一个
Donald Bliss | Sriram Subramaniam | Robert M Henderson | Jun Liu | S. Subramaniam | D. Bliss | J. Arthos | Jun Liu | R. Henderson | D. V. Van Ryk | James Arthos | Adam Bennett | Donald Van Ryk | Adam Bennett
[1] H. Schaller,et al. Intracellular Hepadnavirus Nucleocapsids Are Selected for Secretion by Envelope Protein-Independent Membrane Binding , 2000, Journal of Virology.
[2] A. Vagin,et al. Spherically averaged phased translation function and its application to the search for molecules and fragments in electron-density maps. , 2001, Acta crystallographica. Section D, Biological crystallography.
[3] John E. Johnson,et al. Topologically linked protein rings in the bacteriophage HK97 capsid. , 2000, Science.
[4] Karsten Suhre,et al. ElNémo: a normal mode web server for protein movement analysis and the generation of templates for molecular replacement , 2004, Nucleic Acids Res..
[5] B. Böttcher,et al. High plasticity of the hepatitis B virus capsid revealed by conformational stress. , 2006, Journal of molecular biology.
[6] S. Urban,et al. Viral and cellular determinants involved in hepadnaviral entry. , 2007, World journal of gastroenterology.
[7] B. Böttcher,et al. Peptides that block hepatitis B virus assembly: analysis by cryomicroscopy, mutagenesis and transfection , 1998, The EMBO journal.
[8] Z. Otwinowski,et al. Processing of X-ray diffraction data collected in oscillation mode. , 1997, Methods in enzymology.
[9] E. Beckmann,et al. Structure of the 13-fold symmetric portal protein of bacteriophage SPP1 , 1999, Nature Structural Biology.
[10] P. Zhu,et al. Structural Flexibility and Functional Valence of CD4-IgG2 (PRO 542): Potential for Cross-Linking Human Immunodeficiency Virus Type 1 Envelope Spikes , 2001, Journal of Virology.
[11] M. Tasaka,et al. DNA packaging ATPase of bacteriophage T3. , 1993, Virology.
[12] G. Murshudov,et al. Refinement of macromolecular structures by the maximum-likelihood method. , 1997, Acta crystallographica. Section D, Biological crystallography.
[13] P. Tavares,et al. The high‐resolution functional map of bacteriophage SPP1 portal protein , 2004, Molecular microbiology.
[14] C. Seeger,et al. Hepatitis B Virus Biology , 2000, Microbiology and Molecular Biology Reviews.
[15] J. Hoxie,et al. Envelope Glycoprotein Incorporation, Not Shedding of Surface Envelope Glycoprotein (gp120/SU), Is the Primary Determinant of SU Content of Purified Human Immunodeficiency Virus Type 1 and Simian Immunodeficiency Virus , 2002, Journal of Virology.
[16] A. Trkola,et al. Cross-clade neutralization of primary isolates of human immunodeficiency virus type 1 by human monoclonal antibodies and tetrameric CD4-IgG , 1995, Journal of virology.
[17] R. Prange,et al. Hepatitis B virus assembly is sensitive to changes in the cytosolic S loop of the envelope proteins. , 2000, Virology.
[18] M. Rossmann,et al. Conservation of the capsid structure in tailed dsDNA bacteriophages: the pseudoatomic structure of phi29. , 2005, Molecular cell.
[19] Marc C. Morais,et al. Structure of the bacteriophage φ29 DNA packaging motor , 2000, Nature.
[20] Robin A. Weiss,et al. The T4 gene encodes the AIDS virus receptor and is expressed in the immune system and the brain , 1986, Cell.
[21] H. Schaller,et al. Antigenic determinants and functional domains in core antigen and e antigen from hepatitis B virus , 1989, Journal of virology.
[22] J. Alonso,et al. A defined in vitro system for DNA packaging by the bacteriophage SPP1: insights into the headful packaging mechanism. , 2005, Journal of molecular biology.
[23] 宁北芳,et al. 疟原虫var基因转换速率变化导致抗原变异[英]/Paul H, Robert P, Christodoulou Z, et al//Proc Natl Acad Sci U S A , 2005 .
[24] M. Kerr,et al. Solution structure determination of monomeric human IgA2 by X-ray and neutron scattering, analytical ultracentrifugation and constrained modelling: a comparison with monomeric human IgA1. , 2004, Journal of molecular biology.
[25] Jens Michaelis,et al. Mechanism of Force Generation of a Viral DNA Packaging Motor , 2005, Cell.
[26] K. Taylor,et al. Accurate marker-free alignment with simultaneous geometry determination and reconstruction of tilt series in electron tomography. , 2006, Ultramicroscopy.
[27] M. Baker,et al. Common Ancestry of Herpesviruses and Tailed DNA Bacteriophages , 2005, Journal of Virology.
[28] L. Mitnaul,et al. CCR5, CXCR4, and CD4 Are Clustered and Closely Apposed on Microvilli of Human Macrophages and T Cells , 2001, Journal of Virology.
[29] J. Sodroski,et al. Oligomeric Modeling and Electrostatic Analysis of the gp120 Envelope Glycoprotein of Human Immunodeficiency Virus , 2000, Journal of Virology.
[30] J Navaza,et al. Implementation of molecular replacement in AMoRe. , 2001, Acta crystallographica. Section D, Biological crystallography.
[31] M. Heel,et al. The portal protein of bacteriophage SPP1: a DNA pump with 13‐fold symmetry. , 1993, The EMBO journal.
[32] W. Gerlich,et al. Large surface proteins of hepatitis B virus containing the pre-s sequence , 1984, Journal of virology.
[33] Peter D. Kwong,et al. HIV-1 evades antibody-mediated neutralization through conformational masking of receptor-binding sites , 2002, Nature.
[34] C. Hourioux,et al. Both pre-S1 and S domains of hepatitis B virus envelope proteins interact with the core particle. , 1997, Virology.
[35] M. Greaves,et al. The CD4 (T4) antigen is an essential component of the receptor for the AIDS retrovirus , 1984, Nature.
[36] J. Carrascosa,et al. Structure of viral connectors and their function in bacteriophage assembly and DNA packaging , 1994, Quarterly Reviews of Biophysics.
[37] José L Carrascosa,et al. Detailed architecture of a DNA translocating machine: the high-resolution structure of the bacteriophage phi29 connector particle. , 2002, Journal of molecular biology.
[38] V. Bruss,et al. Mapping of Amino Acid Side Chains on the Surface of Hepatitis B Virus Capsids Required for Envelopment and Virion Formation , 2003, Journal of Virology.
[39] P. Kwong. Human immunodeficiency virus: Refolding the envelope , 2005, Nature.
[40] Peixuan Guo,et al. Prohead and DNA-gp3-dependent ATPase activity of the DNA packaging protein gp16 of bacteriophage phi 29. , 1987, Journal of molecular biology.
[41] Thomas P. J. Garrett,et al. Atomic structure of a fragment of human CD4 containing two immunoglobulin-like domains , 1990, Nature.
[42] Liam J. McGuffin,et al. The PSIPRED protein structure prediction server , 2000, Bioinform..
[43] R. Hendrix,et al. Symmetry mismatch and DNA packaging in large bacteriophages. , 1978, Proceedings of the National Academy of Sciences of the United States of America.
[44] A. Roseman,et al. A structural model for maturation of the hepatitis B virus core. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[45] Don C. Wiley,et al. Structure of an unliganded simian immunodeficiency virus gp120 core , 2005, Nature.
[46] P. Wingfield,et al. Visualization of a 4-helix bundle in the hepatitis B virus capsid by cryo-electron microscopy , 1997, Nature.
[47] Sriram Subramaniam,et al. Electron Tomography of the Contact between T Cells and SIV/HIV-1: Implications for Viral Entry , 2007, PLoS pathogens.
[48] B. Böttcher,et al. Determination of the fold of the core protein of hepatitis B virus by electron cryomicroscopy , 1997, Nature.
[49] F. Chisari,et al. Native hepatitis B virions and capsids visualized by electron cryomicroscopy. , 2006, Molecular cell.
[50] V. Bruss. Envelopment of the hepatitis B virus nucleocapsid. , 2004, Virus research.
[51] J. King,et al. Structure of epsilon15 bacteriophage reveals genome organization and DNA packaging/injection apparatus , 2006, Nature.
[52] A. Leslie,et al. The crystal structure of the human hepatitis B virus capsid. , 1999, Molecular cell.
[53] P. Wingfield,et al. Dimorphism of hepatitis B virus capsids is strongly influenced by the C-terminus of the capsid protein. , 1996, Biochemistry.
[54] S. Fazel,et al. Interplay of J chain and disulfide bonding in assembly of polymeric IgM. , 1997, International immunology.
[55] P. Weigele,et al. Structure of the coat protein-binding domain of the scaffolding protein from a double-stranded DNA virus. , 2000, Journal of molecular biology.
[56] M. Dyson,et al. Selection of peptide inhibitors of interactions involved in complex protein assemblies: association of the core and surface antigens of hepatitis B virus. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[57] D. Stuart,et al. What does structure tell us about virus evolution? , 2005, Current opinion in structural biology.
[58] J. Sodroski,et al. Structure of an HIV gp120 envelope glycoprotein in complex with the CD4 receptor and a neutralizing human antibody , 1998, Nature.
[59] R M Esnouf,et al. An extensively modified version of MolScript that includes greatly enhanced coloring capabilities. , 1997, Journal of molecular graphics & modelling.
[60] Renate Kunert,et al. Comprehensive Cross-Clade Neutralization Analysis of a Panel of Anti-Human Immunodeficiency Virus Type 1 Monoclonal Antibodies , 2004, Journal of Virology.
[61] T. Trautner,et al. Identification of a gene in Bacillus subtilis bacteriophage SPP1 determining the amount of packaged DNA. , 1992, Journal of molecular biology.
[62] Pin-Fang Lin,et al. Small-molecule HIV-1 gp120 inhibitors to prevent HIV-1 entry: an emerging opportunity for drug development. , 2006, Current opinion in investigational drugs.
[63] Min Yang,et al. The structure of trp RNA-binding attenuation protein , 1995, Nature.
[64] A. Heredia,et al. Modification and structure-activity relationship of a small molecule HIV-1 inhibitor targeting the viral envelope glycoprotein gp120. , 2005, Organic & biomolecular chemistry.
[65] J. Mullaney,et al. Portal fusion protein constraints on function in DNA packaging of bacteriophage T4 , 2006, Molecular microbiology.
[66] T. Chun,et al. Biochemical and Biological Characterization of a Dodecameric CD4-Ig Fusion Protein , 2002, The Journal of Biological Chemistry.
[67] S. Tans,et al. The bacteriophage straight phi29 portal motor can package DNA against a large internal force. , 2001, Nature.
[68] J. Alonso,et al. Bacillus subtilis Bacteriophage SPP1 DNA Packaging Motor Requires Terminase and Portal Proteins* , 2003, Journal of Biological Chemistry.
[69] M. Rossmann,et al. Biological Crystallography Structure Determination of the Head±tail Connector of Bacteriophage U29 , 2022 .
[70] Garrett M. Morris,et al. Crystal Structure of a Neutralizing Human IgG Against HIV-1: A Template for Vaccine Design , 2001, Science.
[71] J. Lifson,et al. Distribution and three-dimensional structure of AIDS virus envelope spikes , 2006, Nature.
[72] M van Heel,et al. A new generation of the IMAGIC image processing system. , 1996, Journal of structural biology.
[73] W. Gerlich,et al. Post‐translational alterations in transmembrane topology of the hepatitis B virus large envelope protein. , 1994, The EMBO journal.
[74] P. Tavares,et al. Modulation of the Viral ATPase Activity by the Portal Protein Correlates with DNA Packaging Efficiency* , 2006, Journal of Biological Chemistry.
[75] J. Alonso,et al. The small subunit of the terminase enzyme of Bacillus subtilis bacteriophage SPP1 forms a specialized nucleoprotein complex with the packaging initiation region. , 1995, Journal of molecular biology.
[76] A Steinle,et al. Activation of NK cells and T cells by NKG2D, a receptor for stress-inducible MICA. , 1999, Science.
[77] K. Nagashima,et al. Quantitation of HLA Class II Protein Incorporated into Human Immunodeficiency Type 1 Virions Purified by Anti-CD45 Immunoaffinity Depletion of Microvesicles , 2003, Journal of Virology.
[78] D T Jones,et al. Protein secondary structure prediction based on position-specific scoring matrices. , 1999, Journal of molecular biology.
[79] Alasdair C. Steven,et al. Structure and Polymorphism of the UL6 Portal Protein of Herpes Simplex Virus Type 1 , 2004, Journal of Virology.
[80] Paul J Jardine,et al. Structural changes of bacteriophage ϕ29 upon DNA packaging and release , 2006, The EMBO journal.
[81] Marc C. Morais,et al. Structure of the bacteriophage f29 DNA packaging motor , 2002 .
[82] R. Rosenfeld. Nature , 2009, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.
[83] P. Tavares,et al. The portal protein plays essential roles at different steps of the SPP1 DNA packaging process. , 2004, Virology.
[84] R. A. Crowther,et al. Three-dimensional structure of hepatitis B virus core particles determined by electron cryomicroscopy , 1994, Cell.
[85] W. Tan,et al. Two distinct segments of the hepatitis B virus surface antigen contribute synergistically to its association with the viral core particles. , 1999, Journal of molecular biology.
[86] M. van Heel,et al. Structure of a viral DNA gatekeeper at 10 Å resolution by cryo‐electron microscopy , 2003, The EMBO journal.
[87] H. Hansma,et al. Biomolecular imaging with the atomic force microscope. , 1994, Annual review of biophysics and biomolecular structure.
[88] L. Lally. The CCP 4 Suite — Computer programs for protein crystallography , 1998 .
[89] W. Rutter,et al. Assembly of viral particles in Xenopus oocytes: pre-surface-antigens regulate secretion of the hepatitis B viral surface envelope particle. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[90] David I Stuart,et al. Hepatitis B small surface antigen particles are octahedral. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[91] M. Davis,et al. Differential clustering of CD4 and CD3zeta during T cell recognition. , 2000, Science.
[92] M. Heel,et al. Structural organisation of the head-to-tail interface of a bacterial virus. , 2001, Journal of molecular biology.
[93] S. Jones,et al. Principles of protein-protein interactions. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[94] Q. Sattentau,et al. Inactivation of Human Immunodeficiency Virus Type 1 Infectivity with Preservation of Conformational and Functional Integrity of Virion Surface Proteins , 1998, Journal of Virology.
[95] A. Vagin,et al. MOLREP: an Automated Program for Molecular Replacement , 1997 .
[96] Dr. Chau Tai-Nin,et al. Hepatocellular Carcinoma and Hepatitis B Virus , 2006 .
[97] N. Grigorieff,et al. Accurate determination of local defocus and specimen tilt in electron microscopy. , 2003, Journal of structural biology.
[98] Kenneth A. Taylor,et al. Electron tomography analysis of envelope glycoprotein trimers on HIV and simian immunodeficiency virus virions , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[99] W. Hinrichs,et al. Crystallization and preliminary X-ray crystallographic studies of the 13-fold symmetric portal protein of bacteriophage SPP1. , 1998, Acta crystallographica. Section D, Biological crystallography.
[100] V. Bruss. A short linear sequence in the pre-S domain of the large hepatitis B virus envelope protein required for virion formation , 1997, Journal of virology.