Mature HIV-1 capsid structure by cryo-electron microscopy and all-atom molecular dynamics. Zhao G, Perilla JR, Yufenyuy EL, Meng X, Chen B, Ning J, Ahn J, Gronenborn AM, Schulten K, Aiken C, Zhang P (2013) Nature 497: 643-6 Structural convergence between Cryo-EM and NMR reveals intersubunit interactions critical for HIV-1 capsid function. Byeon IJ, Meng X, Jung J, Zhao G, Yang R, Ahn J, Shi J, Concel J, Aiken C, Zhang P, Gronenborn AM (2009) Cell 139: 780-90 Evaporative microdialysis: an effective improvement in an established method of protein crystallization. Bunick C, North AC, Stubbs G (2000) Acta Crystallogr D Biol Crystallogr 56: 1430-1 Binding of type 3 reovirus by a domain of the sigma 1 protein important for hemagglutination leads to infection of murine erythroleukemia cells. Rubin DH, Wetzel JD, Williams WV, Cohen JA, Dworkin C, Dermody TS (1992) J Clin Invest 90: 2536-42 The Nogo receptor NgR1 mediates infection by mammalian reovirus. Konopka-Anstadt JL, Mainou BA, Sutherland DM, Sekine Y, Strittmatter SM, Dermody TS (2014) Cell Host Microbe 15: 681-91 Homologous 2',5'-phosphodiesterases from disparate RNA viruses antagonize antiviral innate immunity. Zhang R, Jha BK, Ogden KM, Dong B, Zhao L, Elliott R, Patton JT, Silverman RH, Weiss SR (2013) Proc Natl Acad Sci U S A 110: 13114-9 Structural evidence for common functions and ancestry of the reovirus and adenovirus attachment proteins. Stehle T, Dermody TS (2003) Rev Med Virol 13: 123-32 Isolation and molecular characterization of a novel type 3 reovirus from a child with meningitis. Tyler KL, Barton ES, Ibach ML, Robinson C, Campbell JA, O'Donnell SM, Valyi-Nagy T, Clarke P, Wetzel JD, Dermody TS (2004) J Infect Dis 189: 1664-75 Second-site suppressors of HIV-1 capsid mutations: restoration of intracellular activities without correction of intrinsic capsid stability defects. Yang R, Shi J, Byeon IJ, Ahn J, Sheehan JH, Meiler J, Gronenborn AM, Aiken C (2012) Retrovirology 9: 30 Functional maturation of the human antibody response to rotavirus. Kallewaard NL, McKinney BA, Gu Y, Chen A, Prasad BV, Crowe JE (2008) J Immunol 180: 3980-9 Immunodominance of the VH1-46 antibody gene segment in the primary repertoire of human rotavirus-specific B cells is reduced in the memory compartment through somatic mutation of nondominant clones. Tian C, Luskin GK, Dischert KM, Higginbotham JN, Shepherd BE, Crowe JE (2008) J Immunol 180: 3279-88 Determinants of VH1-46 Cross-Reactivity to Pemphigus Vulgaris Autoantigen Desmoglein 3 and Rotavirus Antigen VP6. Cho MJ, Ellebrecht CT, Hammers CM, Mukherjee EM, Sapparapu G, Boudreaux CE, McDonald SM, Crowe JE, Payne AS (2016) J Immunol 197: 1065-73 Intracellular neutralization of a virus using a cell-penetrating molecular transporter. Sapparapu G, Sims AL, Aiyegbo MS, Shaikh FY, Harth EM, Crowe JE (2014) Nanomedicine (Lond) 9: 1613-24 Sibling transmission of vaccine-derived rotavirus (RotaTeq) associated with rotavirus gastroenteritis. Payne DC, Edwards KM, Bowen MD, Keckley E, Peters J, Esona MD, Teel EN, Kent D, Parashar UD, Gentsch JR (2010) Pediatrics 125: e438-41 Reovirus variants selected for resistance to ammonium chloride have mutations in viral outer-capsid protein sigma3. Clark KM, Wetzel JD, Gu Y, Ebert DH, McAbee SA, Stoneman EK, Baer GS, Zhu Y, Wilson GJ, Prasad BV, Dermody TS (2006) J Virol 80: 671-81 Beta1 integrin mediates internalization of mammalian reovirus. Maginnis MS, Forrest JC, Kopecky-Bromberg SA, Dickeson SK, Santoro SA, Zutter MM, Nemerow GR, Bergelson JM, Dermody TS (2006) J Virol 80: 2760-70 Reovirus apoptosis and virulence are regulated by host cell membrane penetration efficiency. Danthi P, Kobayashi T, Holm GH, Hansberger MW, Abel TW, Dermody TS (2008) J Virol 82: 161-72 The reovirus sigma1s protein is a determinant of hematogenous but not neural virus dissemination in mice. Boehme KW, Frierson JM, Konopka JL, Kobayashi T, Dermody TS (2011) J Virol 85: 11781-90 Cleavage susceptibility of reovirus attachment protein sigma1 during proteolytic disassembly of virions is determined by a sequence polymorphism in the sigma1 neck. Chappell JD, Barton ES, Smith TH, Baer GS, Duong DT, Nibert ML, Dermody TS (1998) J Virol 72: 8205-13 Reovirus receptors and pathogenesis. Forrest JC, Dermody TS (2003) J Virol 77: 9109-15 Differences in the capacity of reovirus strains to induce apoptosis are determined by the viral attachment protein sigma 1. Tyler KL, Squier MK, Rodgers SE, Schneider BE, Oberhaus SM, Grdina TA, Cohen JJ, Dermody TS (1995) J Virol 69: 6972-9 Mutations in reovirus outer-capsid protein sigma3 selected during persistent infections of L cells confer resistance to protease inhibitor E64. Baer GS, Dermody TS (1997) J Virol 71: 4921-8 Reovirus-induced apoptosis of MDCK cells is not linked to viral yield and is blocked by Bcl-2. Rodgers SE, Barton ES, Oberhaus SM, Pike B, Gibson CA, Tyler KL, Dermody TS (1997) J Virol 71: 2540-6 Mutations in type 3 reovirus that determine binding to sialic acid are contained in the fibrous tail domain of viral attachment protein sigma1. Chappell JD, Gunn VL, Wetzel JD, Baer GS, Dermody TS (1997) J Virol 71: 1834-41 Viruses and cells with mutations affecting viral entry are selected during persistent rotavirus infections of MA104 cells. Mrukowicz JZ, Wetzel JD, Goral MI, Fogo AB, Wright PF, Dermody TS (1998) J Virol 72: 3088-97 Reovirus growth in cell culture does not require the full complement of viral proteins: identification of a sigma1s-null mutant. Rodgers SE, Connolly JL, Chappell JD, Dermody TS (1998) J Virol 72: 8597-604 Reovirus-induced G(2)/M cell cycle arrest requires sigma1s and occurs in the absence of apoptosis. Poggioli GJ, Keefer C, Connolly JL, Dermody TS, Tyler KL (2000) J Virol 74: 9562-70 Identification of carbohydrate-binding domains in the attachment proteins of type 1 and type 3 reoviruses. Chappell JD, Duong JL, Wright BW, Dermody TS (2000) J Virol 74: 8472-9 Adaptation of reovirus to growth in the presence of protease inhibitor E64 segregates with a mutation in the carboxy terminus of viral outer-capsid protein sigma3. Ebert DH, Wetzel JD, Brumbaugh DE, Chance SR, Stobie LE, Baer GS, Dermody TS (2001) J Virol 75: 3197-206 Complete in vitro assembly of the reovirus outer capsid produces highly infectious particles suitable for genetic studies of the receptor-binding protein. Chandran K, Zhang X, Olson NH, Walker SB, Chappell JD, Dermody TS, Baker TS, Nibert ML (2001) J Virol 75: 5335-42 Reovirus binding to cell surface sialic acid potentiates virus-induced apoptosis. Connolly JL, Barton ES, Dermody TS (2001) J Virol 75: 4029-39 A single mutation in the carboxy terminus of reovirus outer-capsid protein sigma 3 confers enhanced kinetics of sigma 3 proteolysis, resistance to inhibitors of viral disassembly, and alterations in sigma 3 structure. Wilson GJ, Nason EL, Hardy CS, Ebert DH, Wetzel JD, Venkataram Prasad BV, Dermody TS (2002) J Virol 76: 9832-43 Optimum length and flexibility of reovirus attachment protein σ1 are required for efficient viral infection. Bokiej M, Ogden KM, Ikizler M, Reiter DM, Stehle T, Dermody TS (2012) J Virol 86: 10270-80 Differential accessibility of a rotavirus VP6 epitope in trimers comprising type I, II, or III channels as revealed by binding of a human rotavirus VP6-specific antibody. Aiyegbo MS, Eli IM, Spiller BW, Williams DR, Kim R, Lee DE, Liu T, Li S, Stewart PL, Crowe JE (2014) J Virol 88: 469-76 Delivery of adeno-associated virus vectors to the fetal retina: impact of viral capsid proteins on retinal neuronal progenitor transduction. Surace EM, Auricchio A, Reich SJ, Rex T, Glover E, Pineles S, Tang W, O'Connor E, Lyubarsky A, Savchenko A, Pugh EN, Maguire AM, Wilson JM, Bennett J (2003) J Virol 77: 7957-63 Small-molecule inhibition of human immunodeficiency virus type 1 infection by virus capsid destabilization. Shi J, Zhou J, Shah VB, Aiken C, Whitby K (2011) J Virol 85: 542-9 Structural requirements for recognition of the human immunodeficiency virus type 1 core during host restriction in owl monkey cells. Forshey BM, Shi J, Aiken C (2005) J Virol 79: 869-75 A sigma 1 region important for hemagglutination by serotype 3 reovirus strains. Dermody TS, Nibert ML, Bassel-Duby R, Fields BN (1990) J Virol 64: 5173-6 Structure of the reovirus cell-attachment protein: a model for the domain organization of sigma 1. Nibert ML, Dermody TS, Fields BN (1990) J Virol 64: 2976-89 Infectious subvirion particles of reovirus type 3 Dearing exhibit a loss in infectivity and contain a cleaved sigma 1 protein. Nibert ML, Chappell JD, Dermody TS (1995) J Virol 69: 5057-67
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