Interaction between the Hemagglutinin-Neuraminidase and Fusion Glycoproteins of Human Parainfluenza Virus Type III Regulates Viral Growth In Vivo
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Laura M. Palermo | I. Wilson | L. M. Palermo | R. Xu | M. Porotto | A. Moscona | Samantha G. Palmer | S. Niewiesk
[1] Laura M. Palermo,et al. Regulation of Paramyxovirus Fusion Activation: the Hemagglutinin-Neuraminidase Protein Stabilizes the Fusion Protein in a Pretriggered State , 2012, Journal of Virology.
[2] R. Lamb,et al. Fusion activation by a headless parainfluenza virus 5 hemagglutinin-neuraminidase stalk suggests a modular mechanism for triggering , 2012, Proceedings of the National Academy of Sciences.
[3] Laura M. Palermo,et al. Adaptation of Human Parainfluenza Virus to Airway Epithelium Reveals Fusion Properties Required for Growth in Host Tissue , 2012, mBio.
[4] R. Dutch,et al. Paramyxovirus Fusion and Entry: Multiple Paths to a Common End , 2012, Viruses.
[5] I. Wilson,et al. The Second Receptor Binding Site of the Globular Head of the Newcastle Disease Virus Hemagglutinin-Neuraminidase Activates the Stalk of Multiple Paramyxovirus Receptor Binding Proteins To Trigger Fusion , 2012, Journal of Virology.
[6] C. Broder,et al. Henipavirus Mediated Membrane Fusion, Virus Entry and Targeted Therapeutics , 2012, Viruses.
[7] R. Dutch,et al. Human Metapneumovirus (HMPV) Binding and Infection Are Mediated by Interactions between the HMPV Fusion Protein and Heparan Sulfate , 2012, Journal of Virology.
[8] Laura M. Palermo,et al. Mechanism of Fusion Triggering by Human Parainfluenza Virus Type III , 2011, The Journal of Biological Chemistry.
[9] P. Collins,et al. Cholesterol-Rich Microdomains as Docking Platforms for Respiratory Syncytial Virus in Normal Human Bronchial Epithelial Cells , 2011, Journal of Virology.
[10] R. Lamb,et al. Structure and Mutagenesis of the Parainfluenza Virus 5 Hemagglutinin-Neuraminidase Stalk Domain Reveals a Four-Helix Bundle and the Role of the Stalk in Fusion Promotion , 2011, Journal of Virology.
[11] J. Yee,et al. Spring-Loaded Model Revisited: Paramyxovirus Fusion Requires Engagement of a Receptor Binding Protein beyond Initial Triggering of the Fusion Protein , 2011, Journal of Virology.
[12] R. Fouchier,et al. Human Metapneumovirus: Lessons Learned over the First Decade , 2011, Clinical Microbiology Reviews.
[13] R. Lamb,et al. Structure of the Newcastle disease virus hemagglutinin-neuraminidase (HN) ectodomain reveals a four-helix bundle stalk , 2011, Proceedings of the National Academy of Sciences.
[14] Benhur Lee,et al. Modes of paramyxovirus fusion: a Henipavirus perspective. , 2011, Trends in microbiology.
[15] Laura M. Palermo,et al. Premature Activation of the Paramyxovirus Fusion Protein before Target Cell Attachment with Corruption of the Viral Fusion Machinery* , 2011, The Journal of Biological Chemistry.
[16] R. Epand,et al. Soluble Respiratory Syncytial Virus Fusion Protein in the Fully Cleaved, Pretriggered State Is Triggered by Exposure to Low-Molarity Buffer , 2011, Journal of Virology.
[17] R. Sandri-Goldin,et al. Head-to-Tail Intramolecular Interaction of Herpes Simplex Virus Type 1 Regulatory Protein ICP27 Is Important for Its Interaction with Cellular mRNA Export Receptor TAP/NXF1 , 2010, mBio.
[18] R. Lamb,et al. Analysis of parainfluenza virus-5 hemagglutinin-neuraminidase protein mutants that are blocked in internalization and degradation. , 2010, Virology.
[19] R. Plemper,et al. Blue Native PAGE and Biomolecular Complementation Reveal a Tetrameric or Higher-Order Oligomer Organization of the Physiological Measles Virus Attachment Protein H , 2010, Journal of Virology.
[20] L. Aschenbrenner,et al. A recombinant sialidase fusion protein effectively inhibits human parainfluenza viral infection in vitro and in vivo. , 2010, The Journal of infectious diseases.
[21] Kevin W. Eliceiri,et al. Bimolecular fluorescence complementation analysis of eukaryotic fusion products , 2010, Biology of the cell.
[22] R. Sandri-Goldin,et al. Herpes Simplex Virus 1 Regulatory Protein ICP27 Undergoes a Head-to-Tail Intramolecular Interaction , 2010, Journal of Virology.
[23] R. Dutch,et al. Viral entry mechanisms: the increasing diversity of paramyxovirus entry , 2009, The FEBS journal.
[24] Laura M. Palermo,et al. Human Parainfluenza Virus Infection of the Airway Epithelium: Viral Hemagglutinin-Neuraminidase Regulates Fusion Protein Activation and Modulates Infectivity , 2009, Journal of Virology.
[25] R. Dutch,et al. Low-pH Triggering of Human Metapneumovirus Fusion: Essential Residues and Importance in Entry , 2008, Journal of Virology.
[26] Thomas Musich,et al. Engineered Intermonomeric Disulfide Bonds in the Globular Domain of Newcastle Disease Virus Hemagglutinin-Neuraminidase Protein: Implications for the Mechanism of Fusion Promotion , 2008, Journal of Virology.
[27] M. Fornabaio,et al. A Second Receptor Binding Site on Human Parainfluenza Virus Type 3 Hemagglutinin-Neuraminidase Contributes to Activation of the FusionMechanism , 2007, Journal of Virology.
[28] T. Kerppola,et al. Visualization of molecular interactions by fluorescence complementation , 2006, Nature Reviews Molecular Cell Biology.
[29] Vanessa R. Melanson,et al. Addition of N-Glycans in the Stalk of the Newcastle Disease Virus HN Protein Blocks Its Interaction with the F Protein and Prevents Fusion , 2006, Journal of Virology.
[30] R. Lamb,et al. Paramyxovirus membrane fusion: Lessons from the F and HN atomic structures , 2005, Virology.
[31] A. Moscona. Entry of parainfluenza virus into cells as a target for interrupting childhood respiratory disease. , 2005, The Journal of clinical investigation.
[32] M. Porotto,et al. Influence of the Human Parainfluenza Virus 3 Attachment Protein's Neuraminidase Activity on Its Capacity To Activate the Fusion Protein , 2005, Journal of Virology.
[33] P. Collins,et al. Infection of Ciliated Cells by Human Parainfluenza Virus Type 3 in an In Vitro Model of Human Airway Epithelium , 2005, Journal of Virology.
[34] M. Lawrence,et al. Inhibition of Parainfluenza Virus Type 3 and Newcastle Disease Virus Hemagglutinin-Neuraminidase Receptor Binding: Effect of Receptor Avidity and Steric Hindrance at the Inhibitor Binding Sites , 2004, Journal of Virology.
[35] M. Lawrence,et al. Structure of the haemagglutinin-neuraminidase from human parainfluenza virus type III. , 2004, Journal of molecular biology.
[36] Chang‐Deng Hu,et al. Simultaneous visualization of multiple protein interactions in living cells using multicolor fluorescence complementation analysis , 2003, Nature Biotechnology.
[37] M. Porotto,et al. Triggering of Human Parainfluenza Virus 3 Fusion Protein (F) by the Hemagglutinin-Neuraminidase (HN) Protein: an HN Mutation Diminishes the Rate of F Activation and Fusion , 2003, Journal of Virology.
[38] Chang‐Deng Hu,et al. Visualization of interactions among bZIP and Rel family proteins in living cells using bimolecular fluorescence complementation. , 2002, Molecular cell.
[39] R. Lamb,et al. Membrane fusion machines of paramyxoviruses: capture of intermediates of fusion , 2001, The EMBO journal.
[40] T. Morrison,et al. Mutational Analysis of Heptad Repeats in the Membrane-Proximal Region of Newcastle Disease Virus HN Protein , 1999, Journal of Virology.
[41] Udo Albus,et al. Book Review: Guide for the Care and use of Laboratory Animals , 1998 .
[42] R. Compans,et al. Functional interaction of paramyxovirus glycoproteins: identification of a domain in Sendai virus HN which promotes cell fusion , 1996, Journal of virology.
[43] Andrew N. Rowan. Guide for the Care and Use of Laboratory Animals , 1996 .
[44] R. Lamb,et al. Quantitative measurement of paramyxovirus fusion: differences in requirements of glycoproteins between simian virus 5 and human parainfluenza virus 3 or Newcastle disease virus , 1995, Journal of virology.
[45] S. Grzesiek,et al. NMRPipe: A multidimensional spectral processing system based on UNIX pipes , 1995, Journal of biomolecular NMR.
[46] R. M. Iorio,et al. Localization of a domain on the paramyxovirus attachment protein required for the promotion of cellular fusion by its homologous fusion protein spike. , 1995, Virology.
[47] Y. Ito,et al. A cell fusion-inhibiting monoclonal antibody binds to the presumed stalk domain of the human parainfluenza type 2 virus hemagglutinin-neuraminidase protein. , 1995, Virology.
[48] R. Lamb. Paramyxovirus fusion: a hypothesis for changes. , 1993, Virology.
[49] A. Moscona,et al. Relative affinity of the human parainfluenza virus type 3 hemagglutinin-neuraminidase for sialic acid correlates with virus-induced fusion activity , 1993, Journal of virology.
[50] M. Peeples,et al. The attachment function of the Newcastle disease virus hemagglutinin-neuraminidase protein can be separated from fusion promotion by mutation. , 1993, Virology.
[51] R. Lamb,et al. Biological activity of paramyxovirus fusion proteins: factors influencing formation of syncytia , 1992, Journal of virology.
[52] R. Ray,et al. Functional interactions between the fusion protein and hemagglutinin-neuraminidase of human parainfluenza viruses , 1992, Journal of virology.
[53] A. Moya,et al. Fitness alteration of foot-and-mouth disease virus mutants: measurement of adaptability of viral quasispecies , 1991, Journal of virology.
[54] A. Moscona,et al. Fusion properties of cells persistently infected with human parainfluenza virus type 3: participation of hemagglutinin-neuraminidase in membrane fusion , 1991, Journal of virology.
[55] J. Holland,et al. Quantitation of relative fitness and great adaptability of clonal populations of RNA viruses , 1991, Journal of virology.
[56] Lin Chao,et al. Fitness of RNA virus decreased by Muller's ratchet , 1990, Nature.
[57] Scott A Lesley,et al. The Polymerase Incomplete Primer Extension (PIPE) method applied to high-throughput cloning and site-directed mutagenesis. , 2009, Methods in molecular biology.
[58] Z. Otwinowski,et al. Processing of X-ray diffraction data collected in oscillation mode. , 1997, Methods in enzymology.
[59] E. Batschelet,et al. The proportion of revertant and mutant phage in a growing population, as a function of mutation and growth rate. , 1976, Gene.
[60] Randy J Read,et al. Electronic Reprint Biological Crystallography Phenix: Building New Software for Automated Crystallographic Structure Determination Biological Crystallography Phenix: Building New Software for Automated Crystallographic Structure Determination , 2022 .
[61] Randy J Read,et al. Electronic Reprint Biological Crystallography Likelihood-enhanced Fast Translation Functions Biological Crystallography Likelihood-enhanced Fast Translation Functions , 2022 .