Advanced search
Publication Cover
Critical Reviews in Microbiology Volume 43, 2017 - Issue 6
Submit an article Journal homepage
1,675
Views
38
CrossRef citations to date
0
Altmetric
Review Article

Bunyaviridae RdRps: structure, motifs, and RNA synthesis machinery

Abdennour AmrounFaculté de Médecine, UMR “Emergence des Pathologies Virales” (Aix-Marseille University – IRD 190 – Inserm 1207 – EHESP), Fondation IHU Méditerranée Infection, APHM Public Hospitals of Marseille, Marseille, FranceView further author information
,
Stéphane PrietFaculté de Médecine, UMR “Emergence des Pathologies Virales” (Aix-Marseille University – IRD 190 – Inserm 1207 – EHESP), Fondation IHU Méditerranée Infection, APHM Public Hospitals of Marseille, Marseille, FranceView further author information
,
Xavier de LamballerieFaculté de Médecine, UMR “Emergence des Pathologies Virales” (Aix-Marseille University – IRD 190 – Inserm 1207 – EHESP), Fondation IHU Méditerranée Infection, APHM Public Hospitals of Marseille, Marseille, FranceView further author information
&
Gilles QuératFaculté de Médecine, UMR “Emergence des Pathologies Virales” (Aix-Marseille University – IRD 190 – Inserm 1207 – EHESP), Fondation IHU Méditerranée Infection, APHM Public Hospitals of Marseille, Marseille, FranceCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-1897-8210View further author information
ORCID Icon
Pages 753-778 | Received 08 Dec 2016, Accepted 14 Mar 2017, Published online: 18 Apr 2017

References

  • Abraham G, Pattnaik AK. 1983. Early RNA synthesis in Bunyamwera virus-infected cells. J Gen Virol. 64:1277–1290.
  • Accardi L, Prehaud C, Di Bonito P, Mochi S, Bouloy M, Giorgi C. 2001. Activity of Toscana and Rift Valley fever virus transcription complexes on heterologous templates. J Gen Virol. 82:781–785.
  • Albarino CG, Bird BH, Nichol ST. 2007. A shared transcription termination signal on negative and ambisense RNA genome segments of Rift Valley fever, sandfly fever Sicilian, and Toscana viruses. J Virol. 81:5246–5256.
  • Albornoz A, Hoffmann AB, Lozach PY, Tischler ND. 2016. Early Bunyavirus–host cell interactions. Viruses. 8:143–163.
  • Aquino VH, Moreli ML, Moraes Figueiredo LT. 2003. Analysis of oropouche virus L protein amino acid sequence showed the presence of an additional conserved region that could harbour an important role for the polymerase activity. Arch Virol. 148:19–28.
  • Ariza A, Tanner SJ, Walter CT, Dent KC, Shepherd DA, Wu W, Matthews SV, Hiscox JA, Green TJ, Luo M, et al. 2013. Nucleocapsid protein structures from orthobunyaviruses reveal insight into ribonucleoprotein architecture and RNA polymerization. Nucleic Acids Res. 41:5912–5926.
  • Asikainen K, Hanninen T, Henttonen H, Niemimaa J, Laakkonen J, Plyusnin A, Leirs H, Vaheri A, Bille N, et al. 2000. Molecular evolution of puumala hantavirus in Fennoscandia: phylogenetic analysis of strains from two recolonization routes, Karelia and Denmark. J Gen Virol. 81:2833–2841.
  • Ballinger MJ, Bruenn JA, Hay J, Czechowski D, Taylor DJ. 2014. Discovery and evolution of bunyavirids in arctic phantom midges and ancient bunyavirid-like sequences in insect genomes. J Virol. 88:8783–8794.
  • Barr JN. 2007. Bunyavirus mRNA synthesis is coupled to translation to prevent premature transcription termination. RNA. 13:731–736.
  • Barr JN, Elliott RM, Dunn EF, Wertz GW. 2003. Segment-specific terminal sequences of Bunyamwera bunyavirus regulate genome replication. Virology. 5311:326–338.
  • Barr JN, Rodgers JW, Wertz GW. 2006. Identification of the Bunyamwera bunyavirus transcription termination signal. J Gen Virol. 87:189–198.
  • Bartholomeusz A, Thompson P. 1999. Flaviviridae polymerase and RNA replication. J Viral Hepat. 6:261–270.
  • Bellocq C, Raju R, Patterson J, Kolakofsky D. 1987. Translational requirement of La Crosse virus S-mRNA synthesis: in vitro studies. J Virol. 61:87–95.
  • Bier K, York A, Fodor E. 2011. Cellular cap-binding proteins associate with influenza virus mRNAs. J Gen Virol. 92:1627–1634.
  • Bishop DH, Gay ME, Matsuoko Y. 1983. Nonviral heterogeneous sequences are present at the 5′ ends of one species of snowshoe hare bunyavirus S complementary RNA. Nucleic Acids Res. 11:6409–6418.
  • Bitto D, Halldorsson S, Caputo A, Huiskonen JT. 2016. Low pH and anionic lipid-dependent fusion of uukuniemi phlebovirus to liposomes. J Biol Chem. 291:6412–6422.
  • Blaas D, Patzelt E, Kuechler E. 1982. Identification of the cap binding protein of influenza virus. Nucleic Acids Res. 10:4803–4812.
  • Blakqori G, van Knippenberg I, Elliott RM. 2009. Bunyamwera orthobunyavirus S-segment untranslated regions mediate poly(A) tail-independent translation. J Virol. 83:3637–3646.
  • Bouloy M, Pardigon N, Vialat P, Gerbaud S, Girard M. 1990. Characterization of the 5′ and 3′ ends of viral messenger RNAs isolated from BHK21 cells infected with germiston virus (Bunyavirus). Virology. 175:50–58.
  • Bouloy M, Vialat P, Girard M, Pardigon N. 1984. A transcript from the S segment of the Germiston bunyavirus is uncapped and codes for the nucleoprotein and a nonstructural protein. J Virol. 49:717–23.
  • Bowen MD, Trappier SG, Sanchez AJ, Meyer RF, Goldsmith CS, Zaki SR, Dunster LM, Peters CJ, Ksiazek TG, Nichol ST, et al. 2001. A reassortant bunyavirus isolated from acute hemorrhagic fever cases in Kenya and Somalia. Virology. 20291:185–190.
  • Bridgen A, Elliott RM. 1996. Rescue of a segmented negative-strand RNA virus entirely from cloned complementary DNAs. Proc Natl Acad Sci USA. 93:15400–15404.
  • Brown JA, Suo Z. 2011. Unlocking the sugar “steric gate” of DNA polymerases. Biochemistry. 50:1135–1142.
  • Butcher SJ, Grimes JM, Makeyev EV, Bamford DH, Stuart DI. 2001. A mechanism for initiating RNA-dependent RNA polymerization. Nature. 410:235–240.
  • Calisher CH. 1996. History, classification, and taxonomy of viruses in the family Bunyaviridae. New York & London: Plenum.
  • Casals J. 1963. Relationships among arthropod-borne animal viruses determined by cross-challenge tests. Am J Trop Med Hyg. 12:587–596.
  • Castro C, Smidansky ED, Arnold JJ, Maksimchuk KR, Moustafa I, Uchida A, Götte M, Konigsberg W, Cameron CE, et al. 2009. Nucleic acid polymerases use a general acid for nucleotidyl transfer. Nat Struct Mol Biol. 16:212–218.
  • Caton AJ, Robertson JS. 1980. Structure of the host-derived sequences present at the 5′ ends of influenza virus mRNA. Nucleic Acids Res. 2591–2603.
  • Cerny J, Cerna Bolfikova B, Valdes JJ, Grubhoffer L, Ruzek D. 2014. Evolution of tertiary structure of viral RNA dependent polymerases. PLoS One. 9:e96070.
  • Chare ER, Gould EA, Holmes EC. 2003. Phylogenetic analysis reveals a low rate of homologous recombination in negative-sense RNA viruses. J Gen Virol. 84:2691–2703.
  • Chinikar S, Persson SM, Johansson M, Bladh L, Goya M, Houshmand B, Mirazimi A, Plyusnin A, Lundkvist A, Nilsson M, et al. 2004. Genetic analysis of Crimean-congo hemorrhagic fever virus in Iran. J Med Virol. 73:404–411.
  • Chinikar S, Shah-Hosseini N, Bouzari S, Shokrgozar MA, Mostafavi E, Jalali T, Khakifirouz S, Groschup MH, Niedrig M. 2016. Assessment of Recombination in the S-segment genome of Crimean-Congo hemorrhagic fever virus in Iran. J Arthropod Borne Dis. 10:12–23.
  • Choi KH, Groarke JM, Young DC, Kuhn RJ, Smith JL, Pevear DC, Rossmann MG. 2004. The structure of the RNA-dependent RNA polymerase from bovine viral diarrhea virus establishes the role of GTP in de novo initiation. Proc Natl Acad Sci USA. 101:4425–4430.
  • Cifuentes-Munoz N, Salazar-Quiroz N, Tischler ND. 2014. Hantavirus Gn and Gc envelope glycoproteins: key structural units for virus cell entry and virus assembly. Viruses. 6:1801–1822.
  • Collett MS. 1986. Messenger RNA of the M segment RNA of Rift Valley fever virus. Virology. 151:151–156.
  • Coupeau D, Claine F, Wiggers L, Martin B, Kirschvink N, Muylkens B. 2013. Characterization of messenger RNA termini in Schmallenberg virus and related Simbuviruses. J Gen Virol. 94:2399–2405.
  • de Haan P, Kormelink R, de Oliveira Resende R, van Poelwijk F, Peters D, Goldbach R. 1991. Tomato spotted wilt virus L RNA encodes a putative RNA polymerase. J Gen Virol. 72:2207–2216.
  • de Haan P, Wagemakers L, Peters D, Goldbach R. 1990. The S RNA segment of tomato spotted wilt virus has an ambisense character. J Gen Virol. 71:1001–1007.
  • de Oliveira RC, Guterres A, Fernandes J, D'Andrea PS, Bonvicino CR, de Lemos ERS. 2014. Hantavirus reservoirs: current status with an emphasis on data from Brazil. Viruses. 6:1929–1973.
  • Delarue M, Poch O, Tordo N, Morgas D, Argos P. 1990. An attempt to unify the structure of polymerases. Protein Eng. 3:461–467.
  • Devignot S, Bergeron E, Nichol S, Mirazimi A, Weber F. 2015. A virus-like particle system identifies the endonuclease domain of Crimean-Congo hemorrhagic fever virus. J Virol. 89:5957–5967.
  • Deyde VM, Khristova ML, Rollin PE, Ksiazek TG, Nichol ST. 2006. Crimean-Congo hemorrhagic fever virus genomics and global diversity. J Virol. 80:8834–8842.
  • Dhar R, Chanock RM, Lai CJ. 1980. Nonviral oligonucleotides at the 5′ terminus of cytoplasmic influenza viral mRNA deduced from cloned complete genomic sequences. Cell. 21:495–500.
  • Dias A, Bouvier D, Crepin T, McCarthy AA, Hart DJ, Baudin F, Cusack S, Ruigrok RWH. 2009. The cap-snatching endonuclease of influenza virus polymerase resides in the PA subunit. Nature. 458:914–918.
  • Dobie DK, Blair CD, Chandler LJ, Rayms-Keller A, McGaw MM, Wasieloski LP, Beaty BJ. 1997. Analysis of LaCrosse virus S mRNA 5′ termini in infected mosquito cells and Aedes triseriatus mosquitoes. J Virol. 71:4395–4399.
  • Dong H, Li P, Bottcher B, Elliott RM, Dong C. 2013. Crystal structure of Schmallenberg orthobunyavirus nucleoprotein-RNA complex reveals a novel RNA sequestration mechanism. RNA. 19:1129–1136.
  • Dreher TW, Miller WA. 2006. Translational control in positive strand RNA plant viruses. Virology. 44:185–197.
  • Duffy S, Shackelton LA, Holmes EC. 2008. Rates of evolutionary change in viruses: patterns and determinants. Nat Rev Genet. 9:267–276.
  • Duijsings D, Kormelink R, Goldbach R. 2001. In vivo analysis of the TSWV cap-snatching mechanism: single base complementarity and primer length requirements. EMBO J. 20:2545–2552.
  • Dunn EF, Pritlove DC, Jin H, Elliott RM. (1995). Transcription of a recombinant bunyavirus RNA template by transiently expressed bunyavirus proteins. Virology. 211:133–143.
  • Ebihara H, Yoshimatsu K, Ogino M, Araki K, Ami Y, Kariwa H, Takashima I, Li D, Arikawa J. 2000. Pathogenicity of Hantaan virus in newborn mice: genetic reassortant study demonstrating that a single amino acid change in glycoprotein G1 is related to virulence. J Virol. 74:9245–9255.
  • Edgil D, Diamond MS, Holden KL, Paranjape SM, Harris E. 2003. Translation efficiency determines differences in cellular infection among dengue virus type 2 strains. Virology. 317:275–290.
  • Elliott RM. 1989a. Nucleotide sequence analysis of the large (L) genomic RNA segment of Bunyamwera virus, the prototype of the family Bunyaviridae. Virology. 173:426–36.
  • Elliott RM. 1989b. Nucleotide sequence analysis of the small (S) RNA segment of Bunyamwera virus, the prototype of the family Bunyaviridae. J Gen Virol. 70:1281–1285.
  • Elliott RM. 1990. Molecular biology of the Bunyaviridae. J Gen Virol. 71:501–522.
  • Elliott RM. 1997. Emerging viruses: the Bunyaviridae. Mol Med. 3:572–577.
  • Elliott RM. 2014. Orthobunyaviruses: recent genetic and structural insights. Nat Rev Microbiol. 12:673–685.
  • Elliott RM, Schmaljohn CS, Collett MS. 1991. Bunyaviridae genome structure and gene expression. Curr Top Microbiol Immunol. 169:91–141.
  • Emery VC, Bishop DH. 1987. Characterization of Punta Toro S mRNA species and identification of an inverted complementary sequence in the intergenic region of Punta Toro phlebovirus ambisense S RNA that is involved in mRNA transcription termination. Virology. 156:1–11.
  • Engelhardt OG, Smith M, Fodor E. 2005. Association of the influenza A virus RNA-dependent RNA polymerase with cellular RNA polymerase II. J Virol. 79:5812–5818.
  • Eshita Y, Ericson B, Romanowski V, Bishop DH. 1985. Analyses of the mRNA transcription processes of snowshoe hare bunyavirus S and M RNA species. J Virol. 55:681–689.
  • Fenner F. 1975. The classification and nomenclature of viruses. Summary of results of meetings of the International Committee on Taxonomy of Viruses in Madrid, September 1975. Intervirology. 6:1–12.
  • Ferrer-Orta C, Arias A, Perez-Luque R, Escarmís C, Domingo E, Verdaguer N. 2007. Sequential structures provide insights into the fidelity of RNA replication. Proc Natl Acad Sci USA. 104:9463–9468.
  • Ferron F, Li Z, Danek EI, Luo D, Wong Y, Coutard B, Lantez V, Charrel R, Canard B, Walz T. 2011. The hexamer structure of Rift Valley fever virus nucleoprotein suggests a mechanism for its assembly into ribonucleoprotein complexes. PLoS Pathog. 7:e1002030.
  • Flick K, Hooper JW, Schmaljohn CS, Pettersson RF, Feldmann H, Flick R. 2003. Rescue of Hantaan virus minigenomes. Virology. 306:219–224.
  • Flick R, Pettersson RF. 2001. Reverse genetics system for Uukuniemi virus (Bunyaviridae): RNA polymerase I-catalyzed expression of chimeric viral RNAs. J Virol. 75:1643–1655.
  • Ford LP, Wilusz J. 1999. 3′-Terminal RNA structures and poly(U) tracts inhibit initiation by a 3′–>5′ exonuclease in vitro. Nucleic Acids Res. 27:1159–1167.
  • Franklin MC, Wang J, Steitz TA. 2001. Structure of the replicating complex of a pol alpha family DNA polymerase. Cell. 105:657–667.
  • Frias-Staheli N, Giannakopoulos NV, Kikkert M, Taylor SL, Bridgen A, Paragas J, Richt JA, Rowland RR, Schmaljohn CS, Lenschow DJ, et al. 2007. Ovarian tumor domain-containing viral proteases evade ubiquitin- and ISG15-dependent innate immune responses. Cell Host Microbe. 2:404–416.
  • Garcin D, Kolakofsky D. 1990. A novel mechanism for the initiation of Tacaribe arenavirus genome replication. J Virol. 64:6196–6203.
  • Garcin D, Kolakofsky D. 1992. Tacaribe arenavirus RNA synthesis in vitro is primer dependent and suggests an unusual model for the initiation of genome replication. J Virol. 66:1370–1376.
  • Garcin D, Lezzi M, Dobbs M, Elliott RM, Schmaljohn C, Kang CY, Kolakofstky D. 1995. The 5′ ends of Hantaan virus (Bunyaviridae) RNAs suggest a prime-and-realign mechanism for the initiation of RNA synthesis. J Virol. 69:5754–5762.
  • Garriga D, Ferrer-Orta C, Querol-Audi J, Oliva B, Verdaguer N. 2013. Role of motif B loop in allosteric regulation of RNA-dependent RNA polymerization activity. J Mol Biol. 425:2279–2287.
  • Gerbaud S, Pardigon N, Vialat P, Bouloy M. 1987. The S segment of the Germiston bunyavirus genome: coding strategy and transcription. In: Mahy B & Kolakofsky D, editors. The biology of negative strand viruses. Amsterdam: Elsevier; p. 191–198.
  • Gerlach P, Malet H, Cusack S, Reguera J. 2015. Structural insights into Bunyavirus replication and its regulation by the vRNA promoter. Cell. 161:1267–1279.
  • Goedhals D, Bester PA, Paweska JT, Swanepoel R, Burt FJ. 2014. Next-generation sequencing of southern African Crimean-Congo haemorrhagic fever virus isolates reveals a high frequency of M segment reassortment. Epidemiol Infect. 142:1952–1962.
  • Gohara DW, Arnold JJ, Cameron CE. 2004. Poliovirus RNA-dependent RNA polymerase (3Dpol): kinetic, thermodynamic, and structural analysis of ribonucleotide selection. Biochemistry. 43:5149–5158.
  • Gohara DW, Crotty S, Arnold JJ, Yoder JD, Andino R, Cameron CE. 2000. Poliovirus RNA-dependent RNA polymerase (3Dpol): structural, biochemical, and biological analysis of conserved structural motifs A and B. J Biol Chem. 275:25523–25532.
  • Gro MC, Di Bonito P, Accardi L, Giorgi C. 1992. Analysis of 3′ and 5′ ends of N and NSs messenger RNAs of Toscana Phlebovirus. Virology. 191:435–438.
  • Guilligay D, Tarendeau F, Resa-Infante P, Coloma R, Crepin T, Sehr P, Lewis J, Ruigrok RWH, Ortin J, Hart DJ, et al. 2008. The structural basis for cap binding by influenza virus polymerase subunit PB2. Nat Struct Mol Biol. 15:500–506.
  • Hacker JK, Hardy JL. 1997. Adsorptive endocytosis of California encephalitis virus into mosquito and mammalian cells: a role for G1. Virology. 235:40–47.
  • Han GZ, Worobey M. 2011. Homologous recombination in negative sense RNA viruses. Viruses. 3:1358–1373.
  • Hansen JL, Long AM, Schultz SC. 1997. Structure of the RNA-dependent RNA polymerase of poliovirus. Structure. 5:1109–1122.
  • Hardestam J, Simon M, Hedlund KO, Vaheri A, Klingstrom J, Lundkvist A. 2007. Ex vivo stability of the rodent-borne Hantaan virus in comparison to that of arthropod-borne members of the Bunyaviridae family. Appl Environ Microbiol. 73:2547–2551.
  • Harmon B, Schudel BR, Maar D, Kozina C, Ikegami T, Tseng C-TK, Negrete OA. 2012. Rift Valley fever virus strain MP-12 enters mammalian host cells via caveola-mediated endocytosis. J Virol. 86:12954–12970.
  • Hass M, Lelke M, Busch C, Becker-Ziaja B, Günther S. 2008. Mutational evidence for a structural model of the Lassa virus RNA polymerase domain and identification of two residues, Gly1394 and Asp1395, that are critical for transcription but not replication of the genome. J Virol. 82:10207–10217.
  • Hay AJ, Skehel JJ, McCauley J. 1980. Structure and synthesis of influenza virus complementary RNAs. Philos Trans R Soc Lond B. 288:341–348.
  • Henderson WW, Monroe MC, Jeor SCS, Thayer WP, Rowe JE, Peters CJ, Nichol ST. 1995. Naturally occurring Sin Nombre virus genetic reassortants. Virology. 214:602–610.
  • Hepojoki J, Strandin T, Wang H, Vapalahti O, Vaheri A, Lankinen H. 2010. Cytoplasmic tails of hantavirus glycoproteins interact with the nucleocapsid protein. J Gen Virol. 91:2341–2350.
  • Hershey JWB, Merrick WC. 2000. Pathway and mechanism of initiation of protein synthesis. In: Hershey JWB, et al., editors. Translational regulation of gene expression. Cold Spring Harbor, New York: Cold Spring Harbor Laboratory Press; p. 33–88.
  • Hinnebusch AG, Lorsch JR. 2012. The mechanism of eukaryotic translation initiation: new insights and challenges. Cold Spring Harb Perspect Biol. 4:a011544.
  • Holmes EC, Zhang YZ. 2015. The evolution and emergence of hantaviruses. Curr Opin Virol. 10:27–33.
  • Honig JE, Osborne JC, Nichol ST. 2004. Crimean-Congo hemorrhagic fever virus genome L RNA segment and encoded protein. Virology. 321:29–35.
  • Hopkins K, Cherry S. 2013. Bunyaviral cap-snatching vs. decapping: recycling cell cycle mRNAs. Cell Cycle. 12:3711–3712.
  • Hopkins KC, McLane LM, Maqbool T, Panda D, Gordesky-Gold B, Cherry S. 2013. A genome-wide RNAi screen reveals that mRNA decapping restricts bunyaviral replication by limiting the pools of Dcp2-accessible targets for cap-snatching. Genes Dev. 27:1511–1525.
  • Hsu MT, Parvin JD, Gupta S, Krystal M, Palese P. 1987. Genomic RNAs of influenza viruses are held in a circular conformation in virions and in infected cells by a terminal panhandle. Proc Natl Acad Sci USA. 84:8140–8144.
  • Huiet L, Feldstein PA, Tsai JH, Falk BW. 1993. The maize stripe virus major noncapsid protein messenger RNA transcripts contain heterogeneous leader sequences at their 5′ termini. Virology. 197:808–812.
  • Hussein IT, Haseeb A, Haque A, Mir MA. 2011. Recent advances in hantavirus molecular biology and disease. Adv Appl Microbiol. 74:35–75.
  • Hutchinson KL, Peters CJ, Nichol ST. 1996. Sin Nombre virus mRNA synthesis. Virology. 224:139–149.
  • Ikegami T, Won S, Peters CJ, Makino S. 2007. Characterization of Rift Valley fever virus transcriptional terminations. J Virol. 81:8421–8438.
  • Imataka H, Gradi A, Sonenberg N. 1998. A newly identified N-terminal amino acid sequence of human eIF4G binds poly(A)-binding protein and functions in poly(A)-dependent translation. EMBO J. 17:7480–7489.
  • Ingelfinger D, Arndt-Jovin DJ, Luhrmann R, Achsel T. 2002. The human LSm1-7 proteins colocalize with the mRNA-degrading enzymes Dcp1/2 and Xrnl in distinct cytoplasmic foci. RNA. 8:1489–1501.
  • Ito T, Tahara SM, Lai MM. 1998. The 3′-untranslated region of hepatitis C virus RNA enhances translation from an internal ribosomal entry site. J Virol. 72:8789–8796.
  • Jablonski SA, Morrow CD. 1995. Mutation of the aspartic acid residues of the GDD sequence motif of poliovirus RNA-dependent RNA polymerase results in enzymes with altered metal ion requirements for activity. J Virol. 69:1532–1539.
  • Jacobo-Molina A, Ding J, Nanni RG, Clark AD, Lu X, Tantillo C, Williams RL, Kamer G, Ferris AL, Clark P, et al. 1993. Crystal structure of human immunodeficiency virus type 1 reverse transcriptase complexed with double-stranded DNA at 3.0 A resolution shows bent DNA. Proc Natl Acad Sci USA. 90:6320–6324.
  • Jin H, Elliott RM. 1991. Expression of functional Bunyamwera virus L-protein by recombinant vaccinia viruses. J Virol. 65:4182–4189.
  • Jin H, Elliott RM. 1992. Mutagenesis of the L protein encoded by Bunyamwera virus and production of monospecific antibodies. J Gen Virol. 73:2235–2244.
  • Jin H, Elliott RM. 1993a. Characterization of Bunyamwera virus S RNA that is transcribed and replicated by the L protein expressed from recombinant vaccinia virus. J Virol. 67:1396–1404.
  • Jin H, Elliott RM. 1993b. Non-viral sequences at the 5′ ends of Dugbe nairovirus S mRNAs. J Gen Virol. 74:2293–2297.
  • Johnson SJ, Beese LS. 2004. Structures of mismatch replication errors observed in a DNA polymerase. Cell. 116:803–816.
  • Joyce CM. 1997. Choosing the right sugar: how polymerases select a nucleotide substrate. Proc Natl Acad Sci USA. 94:1619–1622.
  • Kao CC, Singh P, Ecker DJ. 2001. De novo initiation of viral RNA-dependent RNA synthesis. Virology. 287:251–260.
  • Kaushik N, Pandey VN, Modak MJ. 1996. Significance of the O-helix residues of Escherichia coli DNA polymerase I in DNA synthesis: dynamics of the dNTP binding pocket. Biochemistry. 35:7256–7266.
  • Kiefer JR, Mao C, Braman JC, Beese LS. 1998. Visualizing DNA replication in a catalytically active Bacillus DNA polymerase crystal. Nature. 391:304–307.
  • King RC, Storto PD. 1988. The role of the otu gene in Drosophila oogenesis. Bioessays. 8:18–24.
  • Kinsella E, Martin SG, Grolla A, Czub M, Feldmann H, Flick R. 2004. Sequence determination of the Crimean-Congo hemorrhagic fever virus L segment. Virology. 321:23–28.
  • Kirsanovs S, Klempa B, Franke R, Lee M-H, Schönrich G, Rang A, Kruger DH. 2010. Genetic reassortment between high-virulent and low-virulent Dobrava-Belgrade virus strains. Virus Genes. 41:319–328.
  • Kohl A, Lowen AC, Leonard VH, Elliott RM. 2006. Genetic elements regulating packaging of the Bunyamwera orthobunyavirus genome. J Gen Virol. 87:177–187.
  • Kohlstaedt LA, Wang J, Friedman JM, Rice PA, Steitz TA. 1992. Crystal structure at 3.5 A resolution of HIV-1 reverse transcriptase complexed with an inhibitor. Science. 256:1783–1790.
  • Kolakofsky D. 2016. dsRNA-ended genomes in orthobunyavirus particles and infected cells. Virology. 489:192–193.
  • Koppstein D, Ashour J, Bartel DP. 2015. Sequencing the cap-snatching repertoire of H1N1 influenza provides insight into the mechanism of viral transcription initiation. Nucleic Acids Res. 43:5052–5064.
  • Kozak M, Shatkin AJ. 1978. Migration of 40 S ribosomal subunits on messenger RNA in the presence of edeine. J Biol Chem. 253:6568–6577.
  • Kranzusch PJ, Schenk AD, Rahmeh AA, Radoshitzky SR, Bavari S, Walz T, Whelan SPJ. 2010. Assembly of a functional Machupo virus polymerase complex. Proc Natl Acad Sci USA. 107:20069–20074.
  • Kuismanen E, Bang B, Hurme M, Pettersson RF. 1984. Uukuniemi virus maturation: immunofluorescence microscopy with monoclonal glycoprotein-specific antibodies. J Virol. 51:137–146.
  • Kuismanen E, Hedman K, Saraste J, Pettersson RF. 1982. Uukuniemi virus maturation: accumulation of virus particles and viral antigens in the Golgi complex. Mol Cell Biol. 2:1444–1458.
  • Kukkonen SK, Vaheri A, Plyusnin A. 1998. Completion of the Tula hantavirus genome sequence: properties of the L segment and heterogeneity found in the 3′ termini of S and L genome RNAs. J Gen Virol. 79:2615–2622.
  • Kukkonen SK, Vaheri A, Plyusnin A. (2004). Tula hantavirus L protein is a 250 kDa perinuclear membrane-associated protein. J Gen Virol. 85:1181–1189.
  • Lai MM. 1998. Cellular factors in the transcription and replication of viral RNA genomes: a parallel to DNA-dependent RNA transcription. Virology. 244:1–12.
  • Lang DM, Zemla AT, Zhou CL. 2013. Highly similar structural frames link the template tunnel and NTP entry tunnel to the exterior surface in RNA-dependent RNA polymerases. Nucleic Acids Res. 41:1464–1482.
  • Le May N, Dubaele S, Proietti De Santis L, Billecocq A, Bouloy M, Egly JM. 2004. TFIIH transcription factor, a target for the Rift Valley hemorrhagic fever virus. Cell. 116:541–550.
  • Lee AS, Kranzusch PJ, Doudna JA, Cate JH. 2016. eIF3d is an mRNA cap-binding protein that is required for specialized translation initiation. Nature. 536:96–99.
  • Lee HW, Lee PW, Baek LJ, Song CK, Seong IW. 1981. Intraspecific transmission of Hantaan virus, etiologic agent of Korean hemorrhagic fever, in the rodent Apodemus agrarius. Am J Trop Med Hyg. 30:1106–1112.
  • Lees JF, Pringle CR, Elliott RM. 1986. Nucleotide sequence of the Bunyamwera virus M RNA segment: conservation of structural features in the Bunyavirus glycoprotein gene product. Virology. 148:1–14.
  • Lesburg CA, Cable MB, Ferrari E, Hong Z, Mannarino AF, Weber PC. 1999. Crystal structure of the RNA-dependent RNA polymerase from hepatitis C virus reveals a fully encircled active site. Nat Struct Biol. 6:937–943.
  • Letzel T, Mundt E, Gorbalenya AE. 2007. Evidence for functional significance of the permuted C motif in Co2+-stimulated RNA-dependent RNA polymerase of infectious bursal disease virus. J Gen Virol. 88:2824–2833.
  • Li Y, Korolev S, Waksman G. 1998. Crystal structures of open and closed forms of binary and ternary complexes of the large fragment of Thermus aquaticus DNA polymerase I: structural basis for nucleotide incorporation. EMBO J. 17:7514–7525.
  • Lohmann V, Korner F, Herian U, Bartenschlager R. 1997. Biochemical properties of hepatitis C virus NS5B RNA-dependent RNA polymerase and identification of amino acid sequence motifs essential for enzymatic activity. J Virol. 71:8416–8428.
  • Lozach PY, Mancini R, Bitto D, Meier R, Oestereich L, Overby AK, Pettersson RF, Helenius A. 2010. Entry of bunyaviruses into mammalian cells. Cell Host Microbe. 7:488–499.
  • Makarova KS, Aravind L, Koonin EV. 2000. A novel superfamily of predicted cysteine proteases from eukaryotes, viruses and Chlamydia pneumoniae. Trends Biochem Sci. 25:50–2.
  • Marklewitz M, Handrick S, Grasse W, Kurth A, Lukashev A, Drosten C, Ellerbrok H, Leendertz FH, Pauli G, Junglen S, et al. 2011. Gouleako virus isolated from West African mosquitoes constitutes a proposed novel genus in the family Bunyaviridae. J Virol. 85:9227–9234.
  • Marklewitz M, Zirkel F, Kurth A, Drosten C, Junglen S. 2015. Evolutionary and phenotypic analysis of live virus isolates suggests arthropod origin of a pathogenic RNA virus family. Proc Natl Acad Sci USA. 112:7536–7541.
  • Marklewitz M, Zirkel F, Rwego IB, Heidemann H, Trippner P, Kurth A, Kallies R, Briese T, Lipkin WI, Drosten C,. 2013. Discovery of a unique novel clade of mosquito-associated bunyaviruses. J Virol. 87:12850–12865.
  • McGary K, Nudler E. 2013. RNA polymerase and the ribosome: the close relationship. Curr Opin Microbiol. 16:112–117.
  • Mir MA, Duran WA, Hjelle BL, Ye C, Panganiban AT. 2008. Storage of cellular 5′ mRNA caps in P bodies for viral cap-snatching. Proc Natl Acad Sci USA. 105:19294–19299.
  • Mir MA, Panganiban AT. 2008. A protein that replaces the entire cellular eIF4F complex. EMBO J. 27:3129–3139.
  • Morin B, Coutard B, Lelke M, Ferron F, Kerber R, Jamal S, Frangeul A, Baronti C, Charrel R, de Lamballerie X, et al. 2010. The N-terminal domain of the arenavirus L protein is an RNA endonuclease essential in mRNA transcription. PLoS Pathog. 6:e1001038.
  • Muller R, Poch O, Delarue M, Bishop DHL, Bouloy M. 1994. Rift Valley fever virus L segment: correction of the sequence and possible functional role of newly identified regions conserved in RNA-dependent polymerases. J Gen Virol. 75: 1345–1352.
  • Murphy FA, Whitfield SG, Sudia WD. 1975. Interactions of vector with vertebrate pathogenic viruses. In: Maramorosch K, Shope RE, editors. Invertebrate iminunity. Orlando: Academic Press; p. 25–37.
  • Nelson MI, Holmes EC. 2007. The evolution of epidemic influenza. Nat Rev Genetics. 8:196–205.
  • Nemirov K, Vapalahti O, Papa A, Plyusnina A, Lundkvist A, Antoniadis A, Vaheri A, Plyusnin A. 2003. Genetic characterization of new Dobrava hantavirus isolate from Greece. J Med Virol. 69:408–416.
  • Ng KK, Arnold JJ, Cameron CE. 2008. Structure–function relationships among RNA-dependent RNA polymerases. Curr Top Microbiol Immunol. 320:137–156.
  • Nichol ST, Beaty BJ, Elliott RM, Goldbach R, Plyusnin A, Schmaljohn C, Tesh R. 2005. Bunyaviridae. In: Fauquet CM, Mayo AM, Maniloff J, Desselberger U, Ball LA, editors. Virus taxonomy, VIIIth report of the ICTV. London: Elsevier Academic Press; p. 695–716.
  • Nikolic V, Stajkovic N, Stamenkovic G, Cekanac R, Marusic P, Siljic M, Gligic A, Stanojevic M. 2014. Evidence of recombination in Tula virus strains from Serbia. Infect Genet Evol. 21:472–478.
  • Niu F, Shaw N, Wang YE, Jiao L, Ding W, Li X, Zhu P, Upur H, Ouyang S, Cheng G. 2013. Structure of the Leanyer orthobunyavirus nucleoprotein-RNA complex reveals unique architecture for RNA encapsidation. Proc Natl Acad Sci USA. 110:9054–9059.
  • Novoa RR, Calderita G, Cabezas P, Elliott RM, Risco C. 2005. Key Golgi factors for structural and functional maturation of bunyamwera virus. J Virol. 79:10852–10863.
  • O'Reilly EK, Kao CC. 1998. Analysis of RNA-dependent RNA polymerase structure and function as guided by known polymerase structures and computer predictions of secondary structure. Virology. 252:287–303.
  • Obrig T, Irvin J, Culp W, Hardesty B. 1971. Inhibition of peptide initiation on reticulocyte ribosomes by edeine. Eur J Biochem. 21:31–41.
  • Ogg MM, Patterson JL. 2007. RNA binding domain of Jamestown Canyon virus S segment RNAs. J Virol. 81:13754–13760.
  • Osborne JC, Elliott RM. 2000. RNA binding properties of bunyamwera virus nucleocapsid protein and selective binding to an element in the 5′ terminus of the negative-sense S segment. J Virol. 74:9946–52.
  • Overby AK, Pettersson RF, Grunewald K, Huiskonen JT. 2008. Insights into bunyavirus architecture from electron cryotomography of Uukuniemi virus. Proc Natl Acad Sci USA. 105:2375–2379.
  • Overby AK, Pettersson RF, Neve EP. 2007. The glycoprotein cytoplasmic tail of Uukuniemi virus (Bunyaviridae) interacts with ribonucleoproteins and is critical for genome packaging. J Virol. 81:3198–3205.
  • Overby AK, Popov VL, Pettersson RF, Neve EP. 2007. The cytoplasmic tails of Uukuniemi Virus (Bunyaviridae) G(N) and G(C) glycoproteins are important for intracellular targeting and the budding of virus-like particles. J Virol. 81:11381–11391.
  • Padilla-Noriega L, Paniagua O, Guzman-Leon S. 2002. Rotavirus protein NSP3 shuts off host cell protein synthesis. Virology. 298:1–7.
  • Pan J, Vakharia VN, Tao YJ. 2007. The structure of a birnavirus polymerase reveals a distinct active site topology. Proc Natl Acad Sci USA. 104:7385–7390.
  • Pattnaik AK, Abraham G. 1983. Identification of four complementary RNA species in Akabane virus-infected cells. J Virol. 47:452–462.
  • Pettersson RF, von Bonsdorff CH. 1975. Ribonucleoproteins of Uukuniemi virus are circular. J Virol. 15:386–392.
  • Pflug A, Guilligay D, Reich S, Cusack S. 2014. Structure of influenza A polymerase bound to the viral RNA promoter. Nature. 516:355–360.
  • Piron M, Vende P, Cohen J, Poncet D. 1998. Rotavirus RNA-binding protein NSP3 interacts with eIF4GI and evicts the poly(A) binding protein from eIF4F. EMBO J. 17:5811–5821.
  • Plassmeyer ML, Soldan SS, Stachelek KM, Roth SM, Martín-García J, González-Scarano F. 2007. Mutagenesis of the La Crosse Virus glycoprotein supports a role for Gc (1066-1087) as the fusion peptide. Virology. 358:273–282.
  • Plotch SJ, Bouloy M, Ulmanen I, Krug RM. 1981. A unique cap(m7GpppXm)-dependent influenza virion endonuclease cleaves capped RNAs to generate the primers that initiate viral RNA transcription. Cell. 23:847–858.
  • Plyusnin A, Cheng Y, Vapalahti O, Pejcoch M, Unar J, Jelinkova Z, Lehväslaiho H, Lundkvist Å, Vaheri A. 1995. Genetic variation in Tula hantaviruses: sequence analysis of the S and M segments of strains from Central Europe. Virus Res. 39:237–250.
  • Plyusnin A, Kukkonen SK, Plyusnina A, Vapalahti O, Vaheri A. 2002. Transfection-mediated generation of functionally competent Tula hantavirus with recombinant S RNA segment. EMBO J. 21:1497–1503.
  • Plyusnin A, Vapalahti O, Lehvaslaiho H, Apekina N, Mikhailova T, Gavrilovskaya I, Laakkonen J, Niemimaa J, Henttonen H, Brummer-Korvenkontio M, et al. 1995. Genetic variation of wild Puumala viruses within the serotype, local rodent populations and individual animal. Virus Res. 38:25–41.
  • Poch O, Sauvaget I, Delarue M, Tordo N. 1989. Identification of four conserved motifs among the RNA-dependent polymerase encoding elements. EMBO J. 8:3867–3874.
  • Porterfield JS, Casals J, Chumakov MP, Gaidamovich SY, Hannoun C, Holmes IH, Horzinek MC, Mussgay M, Russell PK. 1974. Bunyaviruses and bunyaviridae. Intervirology. 2:270–272.
  • Raju R, Kolakofsky D. 1986. Inhibitors of protein synthesis inhibit both La Crosse virus S-mRNA and S genome syntheses in vivo. Virus Res. 5:1–9.
  • Raju R, Kolakofsky D. 1987. Translational requirement of La Crosse virus S-mRNA synthesis: in vivo studies. J Virol. 61:96–103.
  • Raju R, Kolakofsky D. 1989. The ends of La Crosse virus genome and antigenome RNAs within nucleocapsids are base paired. J Virol. 63:122–128.
  • Raju R, Raju L, Hacker D, Garcin D, Compans R, Kolakofsky D. 1990. Nontemplated bases at the 5′ ends of Tacaribe virus mRNAs. Virology. 174:53–59.
  • Raju R, Raju L, Kolakofsky D. 1989. The translational requirement for complete La Crosse virus mRNA synthesis is cell-type dependent. J Virol. 63:5159–5165.
  • Ramesh SV, Pappu HR. 2016. Sequence characterization, molecular phylogeny reconstruction and recombination analysis of the large RNA of Tomato spotted wilt virus (Tospovirus: Bunyaviridae) from the United States. BMC Res Notes. 9:200.
  • Raymond DD, Piper ME, Gerrard SR, Skiniotis G, Smith JL. 2012. Phleboviruses encapsidate their genomes by sequestering RNA bases. Proc Natl Acad Sci USA. 109:19208–19213.
  • Raymond DD, Piper ME, Gerrard SR, Smith JL. 2010. Structure of the Rift Valley fever virus nucleocapsid protein reveals another architecture for RNA encapsidation. Proc Natl Acad Sci USA. 107:11769–11774.
  • Reguera J, Cusack S, Kolakofsky D. 2014. Segmented negative strand RNA virus nucleoprotein structure. Curr Opin Virol. 5:7–15.
  • Reguera J, Gerlach P, Rosenthal M, Gaudon S, Coscia F, Günther S, Cusack S. 2016. Comparative structural and functional analysis of bunyavirus and arenavirus cap-snatching endonucleases. PLoS Pathog. 12:e1005636.
  • Reguera J, Malet H, Weber F, Cusack S. 2013. Structural basis for encapsidation of genomic RNA by La Crosse Orthobunyavirus nucleoprotein. Proc Natl Acad Sci USA. 110:7246–7251.
  • Reguera J, Weber F, Cusack S. 2010. Bunyaviridae RNA polymerases (L-protein) have an N-terminal, influenza-like endonuclease domain, essential for viral cap-dependent transcription. PLoS Pathog. 6:e1001101.
  • Reich S, Guilligay D, Pflug A, Malet H, Berger I, Crépin T, Hart D, Lunardi T, Nanao M, Ruigrok RWH, et al. 2014. Structural insight into cap-snatching and RNA synthesis by influenza polymerase. Nature. 516:361–366.
  • Ribeiro D, Borst JW, Goldbach R, Kormelink R. 2009. Tomato spotted wilt virus nucleocapsid protein interacts with both viral glycoproteins Gn and Gc in planta. Virology. 383:121–130.
  • Rossier C, Patterson J, Kolakofsky D. 1986. La Crosse virus small genome mRNA is made in the cytoplasm. J Virol. 58:647–650.
  • Rotenberg D, Jacobson AL, Schneweis DJ, Whitfield AE. 2015. Thrips transmission of tospoviruses. Curr Opin Virol. 15:80–9.
  • Ruigrok RW, Crepin T, Kolakofsky D. 2011. Nucleoproteins and nucleocapsids of negative-strand RNA viruses. Curr Opin Microbiol. 14:504–510.
  • Salanueva IJ, Novoa RR, Cabezas P, López-Iglesias C, Carrascosa JL, Elliott RM, Risco C. 2003. Polymorphism and structural maturation of bunyamwera virus in Golgi and post-Golgi compartments. J Virol. 77:1368–1381.
  • Sankar S, Porter AG. 1992. Point mutations which drastically affect the polymerization activity of encephalomyocarditis virus RNA-dependent RNA polymerase correspond to the active site of Escherichia coli DNA polymerase I. J Biol Chem. 267:10168–10176.
  • Santos RI, Rodrigues AH, Silva ML, Mortara RA, Rossi MA, Jamur MC, Oliver C, Arruda E. 2008. Oropouche virus entry into HeLa cells involves clathrin and requires endosomal acidification. Virus Res. 138:139–143.
  • Schmaljohn CS, Patterson JL. 1990. Bunyaviridae and their replication part II: replication of Bunyaviridae. In: Fields BN, Knipe DM, et al., editors. Virology. 2nd ed. New York: Raven Press; p. 1175–1194.
  • Schmitt AP, Lamb RA. 2004. Escaping from the cell: assembly and budding of negative-strand RNA viruses. Curr Top Microbiol Immunol. 283:145–196.
  • Shatskaya GS, Dmitrieva TM. 2013. Structural organization of viral RNA-dependent RNA polymerases. Biochemistry Mosc. 78:231–235.
  • Shi X, Kohl A, Li P, Elliott RM. 2007. Role of the cytoplasmic tail domains of Bunyamwera orthobunyavirus glycoproteins Gn and Gc in virus assembly and morphogenesis. J Virol. 81:10151–10160.
  • Simon-Loriere E, Holmes EC. 2011. Why do RNA viruses recombine? Nat Rev Microbiol. 9:617–626.
  • Simon M, Johansson C, Lundkvist A, Mirazimi A. 2009. Microtubule-dependent and microtubule-independent steps in Crimean-Congo hemorrhagic fever virus replication cycle. Virology. 385:313–322.
  • Simon M, Johansson C, Mirazimi A. 2009. Crimean-Congo hemorrhagic fever virus entry and replication is clathrin-, pH- and cholesterol-dependent. J Gen Virol. 90:210–215.
  • Simons JF, Pettersson RF. 1991. Host-derived 5′ ends and overlapping complementary 3′ ends of the two mRNAs transcribed from the ambisense S segment of Uukuniemi virus. J Virol. 65:4741–4748.
  • Sironen T, Vaheri A, Plyusnin A. 2001. Molecular evolution of Puumala hantavirus. J Virol. 75:11803–11810.
  • Smithburn KC, Haddow AJ, Mahaffy AF. 1946. A neurotropic virus isolated from Aedes mosquitoes caught in the Semliki forest. Am J Trop Med Hyg. 26:189–208.
  • Sohrab SS, Bhattacharya PS, Rana D, Kamal MA, Pande MK. 2015. Development of interspecific Solanum lycopersicum and screening for Tospovirus resistance. Saudi J Biol Sci. 22:730–738.
  • Steinhauer WR, Walsh RC, Kalfayan LJ. 1989. Sequence and structure of the Drosophila melanogaster ovarian tumor gene and generation of an antibody specific for the ovarian tumor protein. Mol Cell Biol. 9:5726–5732.
  • Strandin T, Hepojoki J, Vaheri A. 2013. Cytoplasmic tails of bunyavirus Gn glycoproteins – could they act as matrix protein surrogates? Virology. 437:73–80.
  • Tarun SZ, Jr., Wells SE, Deardorff JA, Sachs AB. 1997. Translation initiation factor eIF4G mediates in vitro poly(A) tail-dependent translation. Proc Natl Acad Sci USA. 94:9046–9051.
  • Taubenberger JK, Kash JC. 2010. Influenza virus evolution, host adaptation, and pandemic formation. Cell Host Microbe. 7:440–451.
  • te Velthuis AJ. 2014. Common and unique features of viral RNA-dependent polymerases. Cell Mol Life Sci. 71:4403–4420.
  • Temiakov D, Patlan V, Anikin M, McAllister WT, Yokoyama S, Vassylyev DG. 2004. Structural basis for substrate selection by t7 RNA polymerase. Cell. 116:381–391.
  • Tentchev D, Verdin E, Marchal C, Jacquet M, Aguilar JM, Moury B. 2011. Evolution and structure of Tomato spotted wilt virus populations: evidence of extensive reassortment and insights into emergence processes. J Gen Virol. 92:961–973.
  • Thomas D, Blakqori G, Wagner V, Banholzer M, Kessler N, Elliott RM, Haller O, Weber F. 2004. Inhibition of RNA polymerase II phosphorylation by a viral interferon antagonist. J Biol Chem. 279:31471–31477.
  • Ulmanen I, Broni BA, Krug RM. 1981. Role of two of the influenza virus core P proteins in recognizing cap 1 structures (m7GpppNm) on RNAs and in initiating viral RNA transcription. Proc Natl Acad Sci USA. 78:7355–7359.
  • van Dijk AA, Makeyev EV, Bamford DH. 2004. Initiation of viral RNA-dependent RNA polymerization. J Gen Virol. 85:1077–1093.
  • van Knippenberg I, Goldbach R, Kormelink R. 2005. Tomato spotted wilt virus S-segment mRNAs have overlapping 3′-ends containing a predicted stem-loop structure and conserved sequence motif. Virus Res. 110:125–131.
  • Vazquez AL, Alonso JM, Parra F. 2000. Mutation analysis of the GDD sequence motif of a calicivirus RNA-dependent RNA polymerase. J Virol. 74:3888–3891.
  • Vende P, Piron M, Castagne N, Poncet D. 2000. Efficient translation of rotavirus mRNA requires simultaneous interaction of NSP3 with the eukaryotic translation initiation factor eIF4G and the mRNA 3′ end. J Virol. 74:7064–7071.
  • Vialat P, Bouloy M. 1992. Germiston virus transcriptase requires active 40S ribosomal subunits and utilizes capped cellular RNAs. J Virol. 66:685–693.
  • Vieth S, Torda AE, Asper M, Schmitz H, Günther S. 2004. Sequence analysis of L RNA of Lassa virus. Virology. 318:153–168.
  • Vijaykrishna D, Mukerji R, Smith GJ. 2015. RNA virus reassortment: an evolutionary mechanism for host jumps and immune evasion. PLoS Pathog. 11:e1004902.
  • Walia JJ, Falk BW. 2012. Fig mosaic virus mRNAs show generation by cap-snatching. Virology. 426:162–166.
  • Walter CT, Barr JN. 2010. Bunyamwera virus can repair both insertions and deletions during RNA replication. RNA. 16:1138–1145.
  • Wang Y, Dutta S, Karlberg H, Devignot S, Weber F, Hao Q, Tan YJ, Mirazimi A, Kotaka M. 2012. Structure of Crimean-Congo hemorrhagic fever virus nucleoprotein: superhelical homo-oligomers and the role of caspase-3 cleavage. J Virol. 86:12294–12303.
  • Wichgers Schreur PJ, Kortekaas J. 2016. Single-molecule FISH reveals non-selective packaging of Rift Valley Fever Virus genome segments. PLoS Pathog. 12:e1005800.
  • Worobey M, Holmes EC. 1999. Evolutionary aspects of recombination in RNA viruses. J Gen Virol. 80:2535–2543.
  • Wu EY, Beese LS. 2011. The structure of a high fidelity DNA polymerase bound to a mismatched nucleotide reveals an “AJAR” intermediate conformation in the nucleotide selection mechanism. J Biol Chem. 286:19758–19767.
  • Yang X, Smidansky ED, Maksimchuk KR, Lum D, Welch JL, Arnold JJ, Cameron CE, Boehr DD. 2012. Motif D of viral RNA-dependent RNA polymerases determines efficiency and fidelity of nucleotide addition. Structure. 20:1519–1527.
  • Yao M, Zhang T, Zhou T, Zhou X, Tao X. 2012. Repetitive prime-and-realign mechanism converts short capped RNA leaders into longer ones that may be more suitable for elongation during rice stripe virus transcription initiation. J Gen Virol. 93:194–202.
  • Yin YW, Steitz TA. 2004. The structural mechanism of translocation and helicase activity in T7 RNA polymerase. Cell. 116:393–404.
  • Yuan P, Bartlam M, Lou Z, Chen S, Zhou J, He X, Lv Z, Ge R, Li X, Deng T, et al. 2009. Crystal structure of an avian influenza polymerase PA(N) reveals an endonuclease active site. Nature. 458:909–913.
  • Zamyatkin DF, Parra F, Machin A, Grochulski P, Ng K-S. 2009. Binding of 2'-amino-2'-deoxycytidine-5′-triphosphate to norovirus polymerase induces rearrangement of the active site. J Mol Biol. 390:10–16.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.