1kke Citations

Crystal structure of reovirus attachment protein sigma1 reveals evolutionary relationship to adenovirus fiber.

Chappell JD, Prota AE, Dermody TS, Stehle T
EMBO J 21 1-11 (2002)
Cited: 166 times
EuropePMC logo PMID: 11782420

Abstract

Reovirus attaches to cellular receptors with the sigma1 protein, a fiber-like molecule protruding from the 12 vertices of the icosahedral virion. The crystal structure of a receptor-binding fragment of sigma1 reveals an elongated trimer with two domains: a compact head with a new beta-barrel fold and a fibrous tail containing a triple beta-spiral. Numerous structural and functional similarities between reovirus sigma1 and the adenovirus fiber suggest an evolutionary link in the receptor-binding strategies of these two viruses. A prominent loop in the sigma1 head contains a cluster of residues that are conserved among reovirus serotypes and are likely to form a binding site for junction adhesion molecule, an integral tight junction protein that serves as a reovirus receptor. The fibrous tail is mainly responsible for sigma1 trimer formation, and it contains a highly flexible region that allows for significant movement between the base of the tail and the head. The architecture of the trimer interface and the observed flexibility indicate that sigma1 is a metastable structure poised to undergo conformational changes upon viral attachment and cell entry.

Reviews - 1kke mentioned but not cited (2)

  1. Homotrimeric, beta-stranded viral adhesins and tail proteins. Weigele PR, Scanlon E, King J. J Bacteriol 185 4022-4030 (2003)
  2. Conserved and Diverse Traits of Adhesion Devices from Siphoviridae Recognizing Proteinaceous or Saccharidic Receptors. Goulet A, Spinelli S, Mahony J, Cambillau C. Viruses 12 E512 (2020)

Articles - 1kke mentioned but not cited (10)

  1. Crystal structure of reovirus attachment protein sigma1 reveals evolutionary relationship to adenovirus fiber. Chappell JD, Prota AE, Dermody TS, Stehle T. EMBO J 21 1-11 (2002)
  2. Crystal structure of reovirus attachment protein σ1 in complex with sialylated oligosaccharides. Reiter DM, Frierson JM, Halvorson EE, Kobayashi T, Dermody TS, Stehle T. PLoS Pathog 7 e1002166 (2011)
  3. Isolation of reovirus T3D mutants capable of infecting human tumor cells independent of junction adhesion molecule-A. van den Wollenberg DJ, Dautzenberg IJ, van den Hengel SK, Cramer SJ, de Groot RJ, Hoeben RC. PLoS One 7 e48064 (2012)
  4. Alternative intermolecular contacts underlie the rotavirus VP5* two- to three-fold rearrangement. Yoder JD, Dormitzer PR. EMBO J 25 1559-1568 (2006)
  5. Protective immunoglobulin A and G antibodies bind to overlapping intersubunit epitopes in the head domain of type 1 reovirus adhesin sigma1. Helander A, Miller CL, Myers KS, Neutra MR, Nibert ML. J Virol 78 10695-10705 (2004)
  6. Replication and Oncolytic Activity of an Avian Orthoreovirus in Human Hepatocellular Carcinoma Cells. Kozak RA, Hattin L, Biondi MJ, Corredor JC, Walsh S, Xue-Zhong M, Manuel J, McGilvray ID, Morgenstern J, Lusty E, Cherepanov V, McBey BA, Leishman D, Feld JJ, Bridle B, Nagy É. Viruses 9 E90 (2017)
  7. A molecular dynamics study of reovirus attachment protein sigma1 reveals conformational changes in sigma1 structure. Cavalli A, Prota AE, Stehle T, Dermody TS, Recanatini M, Folkers G, Scapozza L. Biophys J 86 3423-3431 (2004)
  8. Structure and N-acetylglucosamine binding of the distal domain of mouse adenovirus 2 fibre. Singh AK, Nguyen TH, Vidovszky MZ, Harrach B, Benkő M, Kirwan A, Joshi L, Kilcoyne M, Berbis MÁ, Cañada FJ, Jiménez-Barbero J, Menéndez M, Wilson SS, Bromme BA, Smith JG, van Raaij MJ. J Gen Virol 99 1494-1508 (2018)
  9. A Two-Layer SVM Ensemble-Classifier to Predict Interface Residue Pairs of Protein Trimers. Lyu Y, Gong X. Molecules 25 E4353 (2020)
  10. Recombinant MBP-pσ1 expressed in soybean seeds delays onset and reduces developing disease in an animal model of multiple sclerosis. Robles LM, Reichenberg LH, Grissom Ⅲ JH, Chi RJ, Piller KJ. Plant Biotechnol (Tokyo) 39 367-379 (2022)


Reviews citing this publication (42)

  1. Adenoviruses as vaccine vectors. Tatsis N, Ertl HC. Mol Ther 10 616-629 (2004)
  2. Virus entry: molecular mechanisms and biomedical applications. Dimitrov DS. Nat Rev Microbiol 2 109-122 (2004)
  3. What does structure tell us about virus evolution? Bamford DH, Grimes JM, Stuart DI. Curr Opin Struct Biol 15 655-663 (2005)
  4. The Natural Cytotoxicity Receptors in Health and Disease. Barrow AD, Martin CJ, Colonna M. Front Immunol 10 909 (2019)
  5. New insights into the diversity and function of neuronal immunoglobulin superfamily molecules. Rougon G, Hobert O. Annu Rev Neurosci 26 207-238 (2003)
  6. Virus-Receptor Interactions: The Key to Cellular Invasion. Maginnis MS. J Mol Biol 430 2590-2611 (2018)
  7. Virus evolution: how far does the double beta-barrel viral lineage extend? Krupovic M, Bamford DH. Nat Rev Microbiol 6 941-948 (2008)
  8. Structural insights into the coupling of virion assembly and rotavirus replication. Trask SD, McDonald SM, Patton JT. Nat Rev Microbiol 10 165-177 (2012)
  9. Current advances and future challenges in Adenoviral vector biology and targeting. Campos SK, Barry MA. Curr Gene Ther 7 189-204 (2007)
  10. The influence of adenovirus fiber structure and function on vector development for gene therapy. Nicklin SA, Wu E, Nemerow GR, Baker AH. Mol Ther 12 384-393 (2005)
  11. International Union of Pharmacology. LIX. The pharmacology and classification of the nuclear receptor superfamily: thyroid hormone receptors. Flamant F, Baxter JD, Forrest D, Refetoff S, Samuels H, Scanlan TS, Vennström B, Samarut J. Pharmacol Rev 58 705-711 (2006)
  12. Networks of evolutionary interactions underlying the polyphyletic origin of ssDNA viruses. Krupovic M. Curr Opin Virol 3 578-586 (2013)
  13. Adenovirus structure. Rux JJ, Burnett RM. Hum Gene Ther 15 1167-1176 (2004)
  14. Animal cell invasion by a large nonenveloped virus: reovirus delivers the goods. Chandran K, Nibert ML. Trends Microbiol 11 374-382 (2003)
  15. Sneaking in through the back entrance: the biology of malaria liver stages. Frevert U. Trends Parasitol 20 417-424 (2004)
  16. Insights into adenovirus host cell interactions from structural studies. Nemerow GR, Pache L, Reddy V, Stewart PL. Virology 384 380-388 (2009)
  17. From touchdown to transcription: the reovirus cell entry pathway. Danthi P, Guglielmi KM, Kirchner E, Mainou B, Stehle T, Dermody TS. Curr Top Microbiol Immunol 343 91-119 (2010)
  18. Decoding microbial chatter: cell-cell communication in bacteria. Visick KL, Fuqua C. J Bacteriol 187 5507-5519 (2005)
  19. Molecular Basis of Bacterial Host Interactions by Gram-Positive Targeting Bacteriophages. Dunne M, Hupfeld M, Klumpp J, Loessner MJ. Viruses 10 E397 (2018)
  20. Reovirus receptors, cell entry, and proapoptotic signaling. Danthi P, Holm GH, Stehle T, Dermody TS. Adv Exp Med Biol 790 42-71 (2013)
  21. PII signal transduction proteins: pivotal players in post-translational control of nitrogenase activity. Huergo LF, Pedrosa FO, Muller-Santos M, Chubatsu LS, Monteiro RA, Merrick M, Souza EM. Microbiology (Reading) 158 176-190 (2012)
  22. Reovirus receptors and pathogenesis. Forrest JC, Dermody TS. J Virol 77 9109-9115 (2003)
  23. Structures and host-adhesion mechanisms of lactococcal siphophages. Spinelli S, Veesler D, Bebeacua C, Cambillau C. Front Microbiol 5 3 (2014)
  24. Mechanisms of reovirus-induced cell death and tissue injury: role of apoptosis and virus-induced perturbation of host-cell signaling and transcription factor activation. Clarke P, Debiasi RL, Goody R, Hoyt CC, Richardson-Burns S, Tyler KL. Viral Immunol 18 89-115 (2005)
  25. Review: conformation and folding of novel beta-structural elements in viral fiber proteins: the triple beta-spiral and triple beta-helix. Mitraki A, Miller S, van Raaij MJ. J Struct Biol 137 236-247 (2002)
  26. Virus yoga: the role of flexibility in virus host cell recognition. Wu E, Nemerow GR. Trends Microbiol 12 162-169 (2004)
  27. An overview of influenza A virus receptors. Ge S, Wang Z. Crit Rev Microbiol 37 157-165 (2011)
  28. Mechanisms of apoptosis during reovirus infection. Clarke P, Richardson-Burns SM, DeBiasi RL, Tyler KL. Curr Top Microbiol Immunol 289 1-24 (2005)
  29. Potential for Improving Potency and Specificity of Reovirus Oncolysis with Next-Generation Reovirus Variants. Mohamed A, Johnston RN, Shmulevitz M. Viruses 7 6251-6278 (2015)
  30. Function, Architecture, and Biogenesis of Reovirus Replication Neoorganelles. Tenorio R, Fernández de Castro I, Knowlton JJ, Zamora PF, Sutherland DM, Risco C, Dermody TS. Viruses 11 E288 (2019)
  31. Mechanisms of reovirus bloodstream dissemination. Boehme KW, Lai CM, Dermody TS. Adv Virus Res 87 1-35 (2013)
  32. Structural similarities in the cellular receptors used by adenovirus and reovirus. Stehle T, Dermody TS. Viral Immunol 17 129-143 (2004)
  33. Structural evidence for common functions and ancestry of the reovirus and adenovirus attachment proteins. Stehle T, Dermody TS. Rev Med Virol 13 123-132 (2003)
  34. Virus-Receptor Interactions: Structural Insights For Oncolytic Virus Development. Jayawardena N, Burga LN, Poirier JT, Bostina M. Oncolytic Virother 8 39-56 (2019)
  35. Knitting and snipping: chaperones in β-helix folding. Schulz EC, Ficner R. Curr Opin Struct Biol 21 232-239 (2011)
  36. Viral interactions with receptors in cell junctions and effects on junctional stability. Spear PG. Dev Cell 3 462-464 (2002)
  37. Fibers come and go: differences in cell-entry components among related dsRNA viruses. Nibert ML, Takagi Y. Curr Opin Virol 3 20-26 (2013)
  38. Modification of mammalian reoviruses for use as oncolytic agents. Van Den Wollenberg DJ, Van Den Hengel SK, Dautzenberg IJ, Kranenburg O, Hoeben RC. Expert Opin Biol Ther 9 1509-1520 (2009)
  39. Structure and assembly of complex viruses. San Martín C. Subcell Biochem 68 329-360 (2013)
  40. Progress in micro RNA focused research in endocrinology. Voglova K, Bezakova J, Herichova I. Endocr Regul 50 83-105 (2016)
  41. Mechanisms of Cell Entry by dsRNA Viruses: Insights for Efficient Delivery of dsRNA and Tools for Improved RNAi-Based Pest Control. Swevers L, Kontogiannatos D, Kolliopoulou A, Ren F, Feng M, Sun J. Front Physiol 12 749387 (2021)
  42. Zebrafish-based platform for emerging bio-contaminants and virus inactivation research. Patel P, Nandi A, Verma SK, Kaushik N, Suar M, Choi EH, Kaushik NK. Sci Total Environ 872 162197 (2023)

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  1. Nuclear processing and export of microRNAs in Arabidopsis. Park MY, Wu G, Gonzalez-Sulser A, Vaucheret H, Poethig RS. Proc Natl Acad Sci U S A 102 3691-3696 (2005)
  2. The rhesus rotavirus VP4 sialic acid binding domain has a galectin fold with a novel carbohydrate binding site. Dormitzer PR, Sun ZY, Wagner G, Harrison SC. EMBO J 21 885-897 (2002)
  3. The yeast THO complex and mRNA export factors link RNA metabolism with transcription and genome instability. Jimeno S, Rondón AG, Luna R, Aguilera A. EMBO J 21 3526-3535 (2002)
  4. A plasmid-based reverse genetics system for animal double-stranded RNA viruses. Kobayashi T, Antar AA, Boehme KW, Danthi P, Eby EA, Guglielmi KM, Holm GH, Johnson EM, Maginnis MS, Naik S, Skelton WB, Wetzel JD, Wilson GJ, Chappell JD, Dermody TS. Cell Host Microbe 1 147-157 (2007)
  5. Does common architecture reveal a viral lineage spanning all three domains of life? Benson SD, Bamford JK, Bamford DH, Burnett RM. Mol Cell 16 673-685 (2004)
  6. The two GAF domains in phosphodiesterase 2A have distinct roles in dimerization and in cGMP binding. Martinez SE, Wu AY, Glavas NA, Tang XB, Turley S, Hol WG, Beavo JA. Proc Natl Acad Sci U S A 99 13260-13265 (2002)
  7. Novel "anti-reverse" cap analogs with superior translational properties. Jemielity J, Fowler T, Zuberek J, Stepinski J, Lewdorowicz M, Niedzwiecka A, Stolarski R, Darzynkiewicz E, Rhoads RE. RNA 9 1108-1122 (2003)
  8. Adenovirus serotype 5 fiber shaft influences in vivo gene transfer in mice. Smith TA, Idamakanti N, Rollence ML, Marshall-Neff J, Kim J, Mulgrew K, Nemerow GR, Kaleko M, Stevenson SC. Hum Gene Ther 14 777-787 (2003)
  9. Strategy for nonenveloped virus entry: a hydrophobic conformer of the reovirus membrane penetration protein micro 1 mediates membrane disruption. Chandran K, Farsetta DL, Nibert ML. J Virol 76 9920-9933 (2002)
  10. Reovirus polymerase lambda 3 localized by cryo-electron microscopy of virions at a resolution of 7.6 A. Zhang X, Walker SB, Chipman PR, Nibert ML, Baker TS. Nat Struct Biol 10 1011-1018 (2003)
  11. Human mitochondrial thioredoxin. Involvement in mitochondrial membrane potential and cell death. Damdimopoulos AE, Miranda-Vizuete A, Pelto-Huikko M, Gustafsson JA, Spyrou G. J Biol Chem 277 33249-33257 (2002)
  12. Crystal structure of species D adenovirus fiber knobs and their sialic acid binding sites. Burmeister WP, Guilligay D, Cusack S, Wadell G, Arnberg N. J Virol 78 7727-7736 (2004)
  13. 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. J Virol 80 2760-2770 (2006)
  14. Crystal structure of human junctional adhesion molecule 1: implications for reovirus binding. Prota AE, Campbell JA, Schelling P, Forrest JC, Watson MJ, Peters TR, Aurrand-Lions M, Imhof BA, Dermody TS, Stehle T. Proc Natl Acad Sci U S A 100 5366-5371 (2003)
  15. Flexibility of the adenovirus fiber is required for efficient receptor interaction. Wu E, Pache L, Von Seggern DJ, Mullen TM, Mikyas Y, Stewart PL, Nemerow GR. J Virol 77 7225-7235 (2003)
  16. Lactococcal bacteriophage p2 receptor-binding protein structure suggests a common ancestor gene with bacterial and mammalian viruses. Spinelli S, Desmyter A, Verrips CT, de Haard HJ, Moineau S, Cambillau C. Nat Struct Mol Biol 13 85-89 (2006)
  17. The structures of bacteriophages K1E and K1-5 explain processive degradation of polysaccharide capsules and evolution of new host specificities. Leiman PG, Battisti AJ, Bowman VD, Stummeyer K, Mühlenhoff M, Gerardy-Schahn R, Scholl D, Molineux IJ. J Mol Biol 371 836-849 (2007)
  18. The CNS glycoprotein Shadoo has PrP(C)-like protective properties and displays reduced levels in prion infections. Watts JC, Drisaldi B, Ng V, Yang J, Strome B, Horne P, Sy MS, Yoong L, Young R, Mastrangelo P, Bergeron C, Fraser PE, Carlson GA, Mount HT, Schmitt-Ulms G, Westaway D. EMBO J 26 4038-4050 (2007)
  19. Putative autocleavage of outer capsid protein micro1, allowing release of myristoylated peptide micro1N during particle uncoating, is critical for cell entry by reovirus. Odegard AL, Chandran K, Zhang X, Parker JS, Baker TS, Nibert ML. J Virol 78 8732-8745 (2004)
  20. Junctional adhesion molecule a serves as a receptor for prototype and field-isolate strains of mammalian reovirus. Campbell JA, Schelling P, Wetzel JD, Johnson EM, Forrest JC, Wilson GA, Aurrand-Lions M, Imhof BA, Stehle T, Dermody TS. J Virol 79 7967-7978 (2005)
  21. Junctional adhesion molecule-A is required for hematogenous dissemination of reovirus. Antar AA, Konopka JL, Campbell JA, Henry RA, Perdigoto AL, Carter BD, Pozzi A, Abel TW, Dermody TS. Cell Host Microbe 5 59-71 (2009)
  22. Subnanometer-resolution structures of the grass carp reovirus core and virion. Cheng L, Fang Q, Shah S, Atanasov IC, Zhou ZH. J Mol Biol 382 213-222 (2008)
  23. Structure of reovirus sigma1 in complex with its receptor junctional adhesion molecule-A. Kirchner E, Guglielmi KM, Strauss HM, Dermody TS, Stehle T. PLoS Pathog 4 e1000235 (2008)
  24. The delta region of outer-capsid protein micro 1 undergoes conformational change and release from reovirus particles during cell entry. Chandran K, Parker JS, Ehrlich M, Kirchhausen T, Nibert ML. J Virol 77 13361-13375 (2003)
  25. Geminiviruses: a tale of a plasmid becoming a virus. Krupovic M, Ravantti JJ, Bamford DH. BMC Evol Biol 9 112 (2009)
  26. Structure of the receptor-binding carboxy-terminal domain of bacteriophage T7 tail fibers. Garcia-Doval C, van Raaij MJ. Proc Natl Acad Sci U S A 109 9390-9395 (2012)
  27. Reovirus outer capsid protein micro1 induces apoptosis and associates with lipid droplets, endoplasmic reticulum, and mitochondria. Coffey CM, Sheh A, Kim IS, Chandran K, Nibert ML, Parker JS. J Virol 80 8422-8438 (2006)
  28. Control of Lte1 localization by cell polarity determinants and Cdc14. Seshan A, Bardin AJ, Amon A. Curr Biol 12 2098-2110 (2002)
  29. Purification of the Escherichia coli ammonium transporter AmtB reveals a trimeric stoichiometry. Blakey D, Leech A, Thomas GH, Coutts G, Findlay K, Merrick M. Biochem J 364 527-535 (2002)
  30. Glycan Engagement by Viruses: Receptor Switches and Specificity. Ströh LJ, Stehle T. Annu Rev Virol 1 285-306 (2014)
  31. Novel cap analogs for in vitro synthesis of mRNAs with high translational efficiency. Grudzien E, Stepinski J, Jankowska-Anyszka M, Stolarski R, Darzynkiewicz E, Rhoads RE. RNA 10 1479-1487 (2004)
  32. The GM2 glycan serves as a functional coreceptor for serotype 1 reovirus. Reiss K, Stencel JE, Liu Y, Blaum BS, Reiter DM, Feizi T, Dermody TS, Stehle T. PLoS Pathog 8 e1003078 (2012)
  33. Features of reovirus outer capsid protein mu1 revealed by electron cryomicroscopy and image reconstruction of the virion at 7.0 Angstrom resolution. Zhang X, Ji Y, Zhang L, Harrison SC, Marinescu DC, Nibert ML, Baker TS. Structure 13 1545-1557 (2005)
  34. Bacteria and bacterial envelope components enhance mammalian reovirus thermostability. Berger AK, Yi H, Kearns DB, Mainou BA. PLoS Pathog 13 e1006768 (2017)
  35. A chimeric adenovirus vector encoding reovirus attachment protein sigma1 targets cells expressing junctional adhesion molecule 1. Mercier GT, Campbell JA, Chappell JD, Stehle T, Dermody TS, Barry MA. Proc Natl Acad Sci U S A 101 6188-6193 (2004)
  36. Identification and functional analysis of enzymes required for precorrin-2 dehydrogenation and metal ion insertion in the biosynthesis of sirohaem and cobalamin in Bacillus megaterium. Raux E, Leech HK, Beck R, Schubert HL, Santander PJ, Roessner CA, Scott AI, Martens JH, Jahn D, Thermes C, Rambach A, Warren MJ. Biochem J 370 505-516 (2003)
  37. A novel, inducible, eukaryotic gene expression system based on the quorum-sensing transcription factor TraR. Neddermann P, Gargioli C, Muraglia E, Sambucini S, Bonelli F, De Francesco R, Cortese R. EMBO Rep 4 159-165 (2003)
  38. Three-dimensional structure of canine adenovirus serotype 2 capsid. Schoehn G, El Bakkouri M, Fabry CM, Billet O, Estrozi LF, Le L, Curiel DT, Kajava AV, Ruigrok RW, Kremer EJ. J Virol 82 3192-3203 (2008)
  39. Secretory immunoglobulin A antibodies against the sigma1 outer capsid protein of reovirus type 1 Lang prevent infection of mouse Peyer's patches. Hutchings AB, Helander A, Silvey KJ, Chandran K, Lucas WT, Nibert ML, Neutra MR. J Virol 78 947-957 (2004)
  40. Sequence analysis of the genome of piscine orthoreovirus (PRV) associated with heart and skeletal muscle inflammation (HSMI) in Atlantic salmon (Salmo salar). Markussen T, Dahle MK, Tengs T, Løvoll M, Finstad ØW, Wiik-Nielsen CR, Grove S, Lauksund S, Robertsen B, Rimstad E. PLoS One 8 e70075 (2013)
  41. Structure of the carboxy-terminal receptor-binding domain of avian reovirus fibre sigmaC. Guardado Calvo P, Fox GC, Hermo Parrado XL, Llamas-Saiz AL, Costas C, Martínez-Costas J, Benavente J, van Raaij MJ. J Mol Biol 354 137-149 (2005)
  42. Bioinformatics of recent aqua- and orthoreovirus isolates from fish: evolutionary gain or loss of FAST and fiber proteins and taxonomic implications. Nibert ML, Duncan R. PLoS One 8 e68607 (2013)
  43. The structure of the bacteriophage PRD1 spike sheds light on the evolution of viral capsid architecture. Merckel MC, Huiskonen JT, Bamford DH, Goldman A, Tuma R. Mol Cell 18 161-170 (2005)
  44. Reovirus preferentially infects the basolateral surface and is released from the apical surface of polarized human respiratory epithelial cells. Excoffon KJ, Guglielmi KM, Wetzel JD, Gansemer ND, Campbell JA, Dermody TS, Zabner J. J Infect Dis 197 1189-1197 (2008)
  45. Electron and atomic force microscopy of the trimeric ammonium transporter AmtB. Conroy MJ, Jamieson SJ, Blakey D, Kaufmann T, Engel A, Fotiadis D, Merrick M, Bullough PA. EMBO Rep 5 1153-1158 (2004)
  46. Fungicidal synergism of fluconazole and cyclosporine in Candida albicans is not dependent on multidrug efflux transporters encoded by the CDR1, CDR2, CaMDR1, and FLU1 genes. Marchetti O, Moreillon P, Entenza JM, Vouillamoz J, Glauser MP, Bille J, Sanglard D. Antimicrob Agents Chemother 47 1565-1570 (2003)
  47. Regional differences in viral growth and central nervous system injury correlate with apoptosis. Richardson-Burns SM, Tyler KL. J Virol 78 5466-5475 (2004)
  48. Infectious myonecrosis virus has a totivirus-like, 120-subunit capsid, but with fiber complexes at the fivefold axes. Tang J, Ochoa WF, Sinkovits RS, Poulos BT, Ghabrial SA, Lightner DV, Baker TS, Nibert ML. Proc Natl Acad Sci U S A 105 17526-17531 (2008)
  49. Piscine reovirus encodes a cytotoxic, non-fusogenic, integral membrane protein and previously unrecognized virion outer-capsid proteins. Key T, Read J, Nibert ML, Duncan R. J Gen Virol 94 1039-1050 (2013)
  50. Characterization of the slow-growth phenotype of S. cerevisiae Whip/Mgs1 Sgs1 double deletion mutants. Branzei D, Seki M, Onoda F, Yagi H, Kawabe Y, Enomoto T. DNA Repair (Amst) 1 671-682 (2002)
  51. Avian reovirus microNS protein forms homo-oligomeric inclusions in a microtubule-independent fashion, which involves specific regions of its C-terminal domain. Brandariz-Nuñez A, Menaya-Vargas R, Benavente J, Martinez-Costas J. J Virol 84 4289-4301 (2010)
  52. Glycan-mediated enhancement of reovirus receptor binding. Koehler M, Aravamudhan P, Guzman-Cardozo C, Dumitru AC, Yang J, Gargiulo S, Soumillion P, Dermody TS, Alsteens D. Nat Commun 10 4460 (2019)
  53. Utilization of sialylated glycans as coreceptors enhances the neurovirulence of serotype 3 reovirus. Frierson JM, Pruijssers AJ, Konopka JL, Reiter DM, Abel TW, Stehle T, Dermody TS. J Virol 86 13164-13173 (2012)
  54. Recombination between RNA viruses and plasmids might have played a central role in the origin and evolution of small DNA viruses. Krupovic M. Bioessays 34 867-870 (2012)
  55. A positive-feedback mechanism promotes reovirus particle conversion to the intermediate associated with membrane penetration. Agosto MA, Myers KS, Ivanovic T, Nibert ML. Proc Natl Acad Sci U S A 105 10571-10576 (2008)
  56. Crystal structure of a chimeric receptor binding protein constructed from two lactococcal phages. Siponen M, Spinelli S, Blangy S, Moineau S, Cambillau C, Campanacci V. J Bacteriol 191 3220-3225 (2009)
  57. Inhibition of NF-kappa B activity and cFLIP expression contribute to viral-induced apoptosis. Clarke P, Debiasi RL, Meintzer SM, Robinson BA, Tyler KL. Apoptosis 10 513-524 (2005)
  58. Reverse Genetics for Fusogenic Bat-Borne Orthoreovirus Associated with Acute Respiratory Tract Infections in Humans: Role of Outer Capsid Protein σC in Viral Replication and Pathogenesis. Kawagishi T, Kanai Y, Tani H, Shimojima M, Saijo M, Matsuura Y, Kobayashi T. PLoS Pathog 12 e1005455 (2016)
  59. Prediction of GCRV virus-host protein interactome based on structural motif-domain interactions. Zhang A, He L, Wang Y. BMC Bioinformatics 18 145 (2017)
  60. Drosophila retained/dead ringer is necessary for neuronal pathfinding, female receptivity and repression of fruitless independent male courtship behaviors. Ditch LM, Shirangi T, Pitman JL, Latham KL, Finley KD, Edeen PT, Taylor BJ, McKeown M. Development 132 155-164 (2005)
  61. Endoproteolytic processing of the mammalian prion glycoprotein family. Mays CE, Coomaraswamy J, Watts JC, Yang J, Ko KW, Strome B, Mercer RC, Wohlgemuth SL, Schmitt-Ulms G, Westaway D. FEBS J 281 862-876 (2014)
  62. Genetic targeting of adenovirus vectors using a reovirus sigma1-based attachment protein. Schagen FH, Wensveen FM, Carette JE, Dermody TS, Gerritsen WR, van Beusechem VW. Mol Ther 13 997-1005 (2006)
  63. Structural and Functional Features of the Reovirus σ1 Tail. Dietrich MH, Ogden KM, Long JM, Ebenhoch R, Thor A, Dermody TS, Stehle T. J Virol 92 e00336-18 (2018)
  64. Structure and Sialyllactose Binding of the Carboxy-Terminal Head Domain of the Fibre from a Siadenovirus, Turkey Adenovirus 3. Singh AK, Berbís MÁ, Ballmann MZ, Kilcoyne M, Menéndez M, Nguyen TH, Joshi L, Cañada FJ, Jiménez-Barbero J, Benkő M, Harrach B, van Raaij MJ. PLoS One 10 e0139339 (2015)
  65. Development and in vitro validation of a targeted delivery vehicle for DNA vaccines. Talsma SS, Babensee JE, Murthy N, Williams IR. J Control Release 112 271-279 (2006)
  66. Adenovirus fibre shaft sequences fold into the native triple beta-spiral fold when N-terminally fused to the bacteriophage T4 fibritin foldon trimerisation motif. Papanikolopoulou K, Teixeira S, Belrhali H, Forsyth VT, Mitraki A, van Raaij MJ. J Mol Biol 342 219-227 (2004)
  67. Disulfide bonding among micro 1 trimers in mammalian reovirus outer capsid: a late and reversible step in virion morphogenesis. Odegard AL, Chandran K, Liemann S, Harrison SC, Nibert ML. J Virol 77 5389-5400 (2003)
  68. Reovirus sigma1 fiber incorporated into adenovirus serotype 5 enhances infectivity via a CAR-independent pathway. Tsuruta Y, Pereboeva L, Glasgow JN, Luongo CL, Komarova S, Kawakami Y, Curiel DT. Biochem Biophys Res Commun 335 205-214 (2005)
  69. Sequences of avian reovirus M1, M2 and M3 genes and predicted structure/function of the encoded mu proteins. Noad L, Shou J, Coombs KM, Duncan R. Virus Res 116 45-57 (2006)
  70. Virion structure of baboon reovirus, a fusogenic orthoreovirus that lacks an adhesion fiber. Yan X, Parent KN, Goodman RP, Tang J, Shou J, Nibert ML, Duncan R, Baker TS. J Virol 85 7483-7495 (2011)
  71. A critical role for ATP in the stimulation of retinal guanylyl cyclase by guanylyl cyclase-activating proteins. Yamazaki A, Yu H, Yamazaki M, Honkawa H, Matsuura I, Usukura J, Yamazaki RK. J Biol Chem 278 33150-33160 (2003)
  72. Fiber mediated receptor masking in non-infected bystander cells restricts adenovirus cell killing effect but promotes adenovirus host co-existence. Rebetz J, Na M, Su C, Holmqvist B, Edqvist A, Nyberg C, Widegren B, Salford LG, Sjögren HO, Arnberg N, Qian Q, Fan X. PLoS One 4 e8484 (2009)
  73. Structural Insights into Reovirus σ1 Interactions with Two Neutralizing Antibodies. Dietrich MH, Ogden KM, Katen SP, Reiss K, Sutherland DM, Carnahan RH, Goff M, Cooper T, Dermody TS, Stehle T. J Virol 91 e01621-16 (2017)
  74. Structure of Serotype 1 Reovirus Attachment Protein σ1 in Complex with Junctional Adhesion Molecule A Reveals a Conserved Serotype-Independent Binding Epitope. Stettner E, Dietrich MH, Reiss K, Dermody TS, Stehle T. J Virol 89 6136-6140 (2015)
  75. Addition of exogenous polypeptides on the mammalian reovirus outer capsid using reverse genetics. Brochu-Lafontaine V, Lemay G. J Virol Methods 179 342-350 (2012)
  76. Thermolabilizing pseudoreversions in reovirus outer-capsid protein micro 1 rescue the entry defect conferred by a thermostabilizing mutation. Agosto MA, Middleton JK, Freimont EC, Yin J, Nibert ML. J Virol 81 7400-7409 (2007)
  77. Cloning and preliminary functional studies of the JAM-A gene in grass carp (Ctenopharyngodon idellus). Du F, Su J, Su J, Huang R, Liao L, Zhu Z, Wang Y. Fish Shellfish Immunol 34 1476-1484 (2013)
  78. Probing the ability of the coat and vertex protein of the membrane-containing bacteriophage PRD1 to display a meningococcal epitope. Huiskonen JT, Laakkonen L, Toropainen M, Sarvas M, Bamford DH, Bamford JK. Virology 310 267-279 (2003)
  79. Reovirus Neurotropism and Virulence Are Dictated by Sequences in the Head Domain of the Viral Attachment Protein. Sutherland DM, Aravamudhan P, Dietrich MH, Stehle T, Dermody TS. J Virol 92 e00974-18 (2018)
  80. Adenovirus infection: taking the back roads to viral entry. Goosney DL, Nemerow GR. Curr Biol 13 R99-R100 (2003)
  81. Adenovirus fiber shaft contains a trimerization element that supports peptide fusion for targeted gene delivery. Li J, Lad S, Yang G, Luo Y, Iacobelli-Martinez M, Primus FJ, Reisfeld RA, Li E. J Virol 80 12324-12331 (2006)
  82. 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. J Virol 86 10270-10280 (2012)
  83. Characterization of the evolutionarily conserved iron-sulfur cluster of sirohydrochlorin ferrochelatase from Arabidopsis thaliana. Saha K, Webb ME, Rigby SE, Leech HK, Warren MJ, Smith AG. Biochem J 444 227-237 (2012)
  84. Dissection of mammalian orthoreovirus µ2 reveals a self-associative domain required for binding to microtubules but not to factory matrix protein µNS. Eichwald C, Kim J, Nibert ML. PLoS One 12 e0184356 (2017)
  85. Mammalian reovirus core protein micro 2 initiates at the first start codon and is acetylated. Swanson MI, She YM, Ens W, Brown EG, Coombs KM. Rapid Commun Mass Spectrom 16 2317-2324 (2002)
  86. Centromere parC of plasmid R1 is curved. Hoischen C, Bolshoy A, Gerdes K, Diekmann S. Nucleic Acids Res 32 5907-5915 (2004)
  87. Crystal structure of the fibre head domain of the Atadenovirus Snake Adenovirus 1. Singh AK, Menéndez-Conejero R, San Martín C, van Raaij MJ. PLoS One 9 e114373 (2014)
  88. Diminished reovirus capsid stability alters disease pathogenesis and littermate transmission. Doyle JD, Stencel-Baerenwald JE, Copeland CA, Rhoads JP, Brown JJ, Boyd KL, Atkinson JB, Dermody TS. PLoS Pathog 11 e1004693 (2015)
  89. Cytidine Monophosphate N-Acetylneuraminic Acid Synthetase and Solute Carrier Family 35 Member A1 Are Required for Reovirus Binding and Infection. Urbanek K, Sutherland DM, Orchard RC, Wilen CB, Knowlton JJ, Aravamudhan P, Taylor GM, Virgin HW, Dermody TS. J Virol 95 e01571-20 (2020)
  90. New insights about ORF1 coding regions support the proposition of a new genus comprising arthropod viruses in the family Totiviridae. Dantas MD, Cavalcante GH, Oliveira RA, Lanza DC. Virus Res 211 159-164 (2016)
  91. Escherichia coli low-copy-number plasmid R1 centromere parC forms a U-shaped complex with its binding protein ParR. Hoischen C, Bussiek M, Langowski J, Diekmann S. Nucleic Acids Res 36 607-615 (2008)
  92. Protein Mismatches Caused by Reassortment Influence Functions of the Reovirus Capsid. Thete D, Danthi P. J Virol 92 e00858-18 (2018)
  93. Structure of a pentameric virion-associated fiber with a potential role in Orsay virus entry to host cells. Fan Y, Guo YR, Yuan W, Zhou Y, Holt MV, Wang T, Demeler B, Young NL, Zhong W, Tao YJ. PLoS Pathog 13 e1006231 (2017)
  94. Reovirus σ1 Conformational Flexibility Modulates the Efficiency of Host Cell Attachment. Diller JR, Halloran SR, Koehler M, Dos Santos Natividade R, Alsteens D, Stehle T, Dermody TS, Ogden KM. J Virol 94 e01163-20 (2020)
  95. Stalled folding mutants in the triple beta-helix domain of the phage P22 tailspike adhesin. Weigele PR, Haase-Pettingell C, Campbell PG, Gossard DC, King J. J Mol Biol 354 1103-1117 (2005)
  96. Analysis of new isolates reveals new genome organization and a hypervariable region in infectious myonecrosis virus (IMNV). Dantas MD, Chavante SF, Teixeira DI, Lima JP, Lanza DC. Virus Res 203 66-71 (2015)
  97. Engineering Recombinant Reoviruses To Display gp41 Membrane-Proximal External-Region Epitopes from HIV-1. Boehme KW, Ikizler M, Iskarpatyoti JA, Wetzel JD, Willis J, Crowe JE, LaBranche CC, Montefiori DC, Wilson GJ, Dermody TS. mSphere 1 e00086-16 (2016)
  98. Grass carp reovirus-GD108 fiber protein is involved in cell attachment. Tian Y, Jiao Z, Dong J, Sun C, Jiang X, Ye X. Virus Genes 53 613-622 (2017)
  99. Polycistronic Genome Segment Evolution and Gain and Loss of FAST Protein Function during Fusogenic Orthoreovirus Speciation. Yang Y, Gaspard G, McMullen N, Duncan R. Viruses 12 E702 (2020)
  100. A comparative molecular force spectroscopy study of homophilic JAM-A interactions and JAM-A interactions with reovirus attachment protein sigma1. Vedula SR, Lim TS, Kirchner E, Guglielmi KM, Dermody TS, Stehle T, Hunziker W, Lim CT. J Mol Recognit 21 210-216 (2008)
  101. Baculovirus-assisted Reovirus Infection in Monolayer and Spheroid Cultures of Glioma cells. Dautzenberg IJC, van den Hengel SK, de Vrij J, Ravesloot L, Cramer SJ, Hong SS, van den Wollenberg DJM, Boulanger P, Hoeben RC. Sci Rep 7 17654 (2017)
  102. Crystal structure of raptor adenovirus 1 fibre head and role of the beta-hairpin in siadenovirus fibre head domains. Nguyen TH, Ballmann MZ, Do HT, Truong HN, Benkő M, Harrach B, van Raaij MJ. Virol J 13 106 (2016)
  103. Crystal structure of the fibre head domain of bovine adenovirus 4, a ruminant atadenovirus. Nguyen TH, Vidovszky MZ, Ballmann MZ, Sanz-Gaitero M, Singh AK, Harrach B, Benkő M, van Raaij MJ. Virol J 12 81 (2015)
  104. Crystallization of the C-terminal globular domain of avian reovirus fibre. van Raaij MJ, Hermo Parrado XL, Guardado Calvo P, Fox GC, Llamas-Saiz AL, Costas C, Martínez-Costas J, Benavente J. Acta Crystallogr Sect F Struct Biol Cryst Commun 61 651-654 (2005)
  105. Generation of Genetically RGD σ1-Modified Oncolytic Reovirus That Enhances JAM-A-Independent Infection of Tumor Cells. Kawagishi T, Kanai Y, Nouda R, Fukui I, Nurdin JA, Matsuura Y, Kobayashi T. J Virol 94 e01703-20 (2020)
  106. Loss of sialic acid binding domain redirects protein σ1 to enhance M cell-directed vaccination. Zlotkowska D, Maddaloni M, Riccardi C, Walters N, Holderness K, Callis G, Rynda-Apple A, Pascual DW. PLoS One 7 e36182 (2012)
  107. Continuous culture and proteomic analysis of Escherichia coli DH5α and its acetate-tolerant mutant DA19 under conditions of nitrogen source limitation. Zhang X, Zhang Y, Li Z, Xia Y, Ye Q. Bioprocess Biosyst Eng 34 179-187 (2011)
  108. Orsay Virus CP-δ Adopts a Novel β-Bracelet Structural Fold and Incorporates into Virions as a Head Fiber. Guo YR, Fan Y, Zhou Y, Jin M, Zhang JL, Jiang H, Holt MV, Wang T, Young NL, Wang D, Zhong W, Tao YJ. J Virol 94 e01560-20 (2020)
  109. Type II Grass Carp Reovirus Infects Leukocytes but Not Erythrocytes and Thrombocytes in Grass Carp (Ctenopharyngodon idella). Yang L, Su J. Viruses 13 870 (2021)
  110. An Unusual Aspartic Acid Cluster in the Reovirus Attachment Fiber σ1 Mediates Stability at Low pH and Preserves Trimeric Organization. Glorani G, Ruwolt M, Holton N, Loll B, Neu U. J Virol 96 e0033122 (2022)
  111. Deciphering molecular mechanisms stabilizing the reovirus-binding complex. Dos Santos Natividade R, Koehler M, Gomes PSFC, Simpson JD, Smith SC, Gomes DEB, de Lhoneux J, Yang J, Ray A, Dermody TS, Bernardi RC, Ogden KM, Alsteens D. Proc Natl Acad Sci U S A 120 e2220741120 (2023)
  112. In situ structures of polymerase complex of mammalian reovirus illuminate RdRp activation and transcription regulation. Bao K, Zhang X, Li D, Sun W, Sun Z, Wang J, Zhu P. Proc Natl Acad Sci U S A 119 e2203054119 (2022)


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