• 1
    Tate J.E., Burton A.H., Boschi-Pinto C., Steele A.D., Dugue J., Parashar U.D. WHO-coordinated Global Rotavirus Surveillance Network. (2012) 2008 estimate of worldwide rotavirus-associated mortality in children younger than 5 years before the introduction of universal rotavirus vaccination programmes: a systematic review and meta-analysis. Lancet Infect Dis 12: 13641.
  • 2
    Estes M.K., Kapikian A.Z. (2007). Rotaviruses. In: Knipe D. M., Howley P. M. eds. Fields Virology. 5th edn. Philadelphia: Lippincott Williams & Wilkins. pp. 191774.
  • 3
    Komoto S., Taniguchi K. (2006) Reverse genetics systems of segmented double-stranded RNA viruses including rotavirus. Future Virol 1: 83346.
  • 4
    Taniguchi K., Komoto S. (2012) Genetics and reverse genetics of rotavirus. Curr Opin Virol 2: 399407.
  • 5
    Mitchell D.B., Both G.W. (1990) Completion of the genomic sequence of the simian rotavirus SA11: nucleotide sequences of segments 1, 2 and 3. Virology 177: 32431.
  • 6
    Chen D., Zeng C.Q., Wentz M.J., Gorziglia M., Estes M.K., Ramig R.F. (1994) Template-dependent, in vitro replication of rotavirus RNA. J Virol 68: 70309.
  • 7
    Komoto S., Sasaki J., Taniguchi K. (2006) Reverse genetics system for introduction of site-specific mutations into the double-stranded RNA genome of infectious rotavirus. Proc Natl Acad Sci USA 103: 464651.
  • 8
    Komoto S., Kugita M., Sasaki J., Taniguchi K. (2008) Generation of recombinant rotavirus with an antigenic mosaic of cross-reactive neutralization epitopes on VP4. J Virol 82: 67537.
  • 9
    Komoto S., Wakuda M., Ide T., Niimi G., Maeno Y., Higo-Moriguchi K., Taniguchi K. (2011) Modification of the trypsin cleavage site of rotavirus VP4 to a furin-sensitive form does not enhance replication efficiency. J Gen Virol 92: 291421.
  • 10
    Trask S.D., Taraporewala Z.F., Boehme K.W., Dermody T.S., Patton J.T. (2010) Dual selection mechanisms drive efficient single-gene reverse genetics for rotavirus. Proc Natl Acad Sci USA 107: 186527.
  • 11
    Navarro A., Trask S.D., Patton J.T. (2013) Generation of genetically stable recombinant rotaviruses containing novel genome rearrangements and heterologous sequences by reverse genetics. J Virol 87: 621120.
  • 12
    Troupin C., Dehee A., Schnuriger A., Vende P., Poncet D., Garbarg-Chenon A. (2010) Rearranged genomic RNA segments offer a new approach to the reverse genetics of rotaviruses. J Virol 84: 67119.
  • 13
    Ramig R.F. (1982) Isolation and genetic characterization of temperature-sensitive mutants of simian rotavirus SA11. Virology 120: 93105.
  • 14
    Lawton J.A., Estes M.K., Prasad B.V. (1997) Three-dimensional visualization of mRNA release from actively transcribing rotavirus particles. Nat Struct Biol 4: 11821.
  • 15
    Charpilienne A., Lepault J., Rey F., Cohen J. (2002) Identification of rotavirus VP6 residues located at the interface with VP2 that are essential for capsid assembly and transcriptase activity. J Virol 76: 782231.
  • 16
    Imai M., Akatani K., Ikegami N., Furuichi Y. (1983) Capped and conserved terminal structures in human rotavirus genome double-stranded RNA segments. J Virol 47: 12536.
  • 17
    Taraporewala Z.F., Patton J.T. (2004) Nonstructural proteins involved in genome packaging and replication of rotaviruses and other members of the Reoviridae. Virus Res 101: 5766.
  • 18
    Luytjes W., Krystal M., Enami M., Palese P. (1989) Amplification, expression and packaging of foreign gene by influenza virus. Cell 59: 110713.
  • 19
    Enami M., Luytjes W., Krystal M., Palese P. (1990) Introduction of site-specific mutations into the genome of influenza virus. Proc Natl Acad Sci USA 87: 38025.
  • 20
    Enami M., Sharma G., Benham C., Palese P. (1991) An influenza virus containing nine different RNA segments. Virology 185: 2918.
  • 21
    Milligan J.F., Groebe D.R., Witherell G.W., Uhlenbeck O.C. (1987) Oligoribonucleotide synthesis using T7 RNA polymerase and synthetic DNA templates. Nucleic Acids Res 15: 878398.
  • 22
    Perrotta A.T., Been M.D. (1991) A pseudoknot-like structure required for efficient self-cleavage of hepatitis delta virus RNA. Nature 350: 4346.
  • 23
    Ishii K., Ueda Y., Matsuo K., Matsuura Y., Kitamura T., Kato K., Izumi Y., Someya K., Ohsu T., Honda M., Miyamura T. (2002) Structural analysis of vaccinia virus DIs strain: application as a new replication-deficient viral vector. Virology 302: 43344.
  • 24
    Conzelmann K.K. (2004) Reverse genetics of mononegavirales. Curr Top Microbiol Immunol 283: 141.
  • 25
    Taniguchi K., Maloy W.L., Nishikawa K., Green K.Y., Hoshino Y., Urasawa S., Kapikian A.Z., Chanock R.M., Gorziglia M. (1988) Identification of cross-reactive and serotype 2-specific neutralization epitopes on VP3 of human rotavirus. J Virol 62: 24216.
  • 26
    Mackow E.R., Shaw R.D., Matsui S.M., Vo P.T., Dang M.N., Greenberg H.B. (1988) The rhesus rotavirus gene encoding VP3: location of amino acids involved in homologous and heterologous rotavirus neutralization and identification of a putative fusion region. Proc Natl Acad Sci USA 85: 6459.
  • 27
    Klenk H.D., Garten W. (1994) Host cell proteases controlling virus pathogenicity. Trends Microbiol 2: 3943.
  • 28
    Dormitzer P.R., Nason E.B., Prasad B.V., Harrison S.C. (2004) Structural rearrangements in the membrane penetration protein of a non-enveloped virus. Nature 430: 10538.
  • 29
    Estes M.K., Graham D.Y., Mason B.B. (1981) Proteolytic enhancement of rotavirus infectivity: molecular mechanisms. J Virol 39: 87988.
  • 30
    Gault E., Schnepf N., Poncet D., Servant A., Teran S., Garbarg-Chenon A. (2001) A human rotavirus with rearranged genes 7 and 11 encodes a modified NSP3 protein and suggests an additional mechanism for gene rearrangement. J Virol 75: 730514.
  • 31
    Criglar J., Greenberg H.B., Estes M.K., Ramig R.F. (2011) Reconciliation of rotavirus temperature-sensitive mutant collections and assignment of reassortment groups D, J, and K to genome segments. J Virol 85: 504860.
  • 32
    Kobayashi T., Antar A.A.R., Boehme K.W., Danthi P., Eby E.A., Guglielmi K.M., Holm G.H., Johnson E.M., Maginnis M.S., Naik S., Skelton W.B., Wetzel J.D., Wilson G.J., Chappell J.D., Dermody T.S. (2007) A plasmid-based reverse genetics system for animal double-stranded RNA viruses. Cell Host Microbe 1: 14757.
  • 33
    Kobayashi T., Ooms L.S., Ikizler M., Chappell J.D., Dermody T.S. (2010) An improved reverse genetics system for mammalian orthoreoviruses. Virology 398: 194200.
  • 34
    Boyce M., Celma C.C., Roy P. (2008) Development of reverse genetics systems for bluetongue virus: recovery of infectious virus from synthetic RNA transcripts. J Virol 82: 833948.
  • 35
    Boyce M., Roy P. (2007) Recovery of infectious bluetongue virus from RNA. J Virol 81: 217986.
  • 36
    Hundley F., Biryahwaho B., Gow M., Desselberger U. (1985) Genome rearrangements of bovine rotavirus after serial passages at high multiplicity of infection. Virology 143: 88103.
  • 37
    Hong H., Takahashi K., Ichisaka T., Aoi T., Kanagawa O., Nakagawa M., Okita K., Yamanaka S. (2009) Suppression of induced pluripotent stem cell generation by the p53-p21 pathway. Nature 460: 11326.
  • 38
    Roner M.R., Sutphin L.A., Joklik W.K. (1990) Reovirus RNA is infectious. Virology 179: 84552.
  • 39
    van den Wollenberg D.J., van den Hengel S.K., Dautzenberg I.J., Cramer S.J., Kranenburg O., Hoeben R.C. (2008) A strategy for genetic modification of the spike-encoding segment of human reovirus T3D for reovirus targeting. Gene Ther 15: 156778.
  • 40
    Van Gennip R.G., Veldman D., van de Water S.G., van Rijn P.A. (2010) Genetic modification of Bluetongue virus by uptake of “synthetic” genome segments. Virol J 7: 261.
  • 41
    Matsuo E., Celma C.C., Roy P. (2010) A reverse genetics system of African horse sickness virus reveals existence of primary replication. FEBS Lett 584: 338691.