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185 related items for PubMed ID: 31835698

  • 1. From a Movement-Deficient Grapevine Fanleaf Virus to the Identification of a New Viral Determinant of Nematode Transmission.
    Belval L, Marmonier A, Schmitt-Keichinger C, Gersch S, Andret-Link P, Komar V, Vigne E, Lemaire O, Ritzenthaler C, Demangeat G.
    Viruses; 2019 Dec 11; 11(12):. PubMed ID: 31835698
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  • 2. A stretch of 11 amino acids in the betaB-betaC loop of the coat protein of grapevine fanleaf virus is essential for transmission by the nematode Xiphinema index.
    Schellenberger P, Andret-Link P, Schmitt-Keichinger C, Bergdoll M, Marmonier A, Vigne E, Lemaire O, Fuchs M, Demangeat G, Ritzenthaler C.
    J Virol; 2010 Aug 11; 84(16):7924-33. PubMed ID: 20519403
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  • 6. Detection of Nepovirus Vector and Nonvector Xiphinema Species in Grapevine.
    Van Ghelder C, Reid A, Kenyon D, Esmenjaud D.
    Methods Mol Biol; 2015 Aug 11; 1302():149-59. PubMed ID: 25981253
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  • 9. The nine C-terminal residues of the grapevine fanleaf nepovirus movement protein are critical for systemic virus spread.
    Belin C, Schmitt C, Gaire F, Walter B, Demangeat G, Pinck L.
    J Gen Virol; 1999 Jun 11; 80 ( Pt 6)():1347-1356. PubMed ID: 10374950
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  • 11. Multiple interspecies recombination events within RNA2 of Grapevine fanleaf virus and Arabis mosaic virus.
    Vigne E, Marmonier A, Fuchs M.
    Arch Virol; 2008 Jun 11; 153(9):1771-6. PubMed ID: 18695933
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  • 12. Grapevine deformation virus: completion of the sequence and evidence on its origin from recombination events between Grapevine fanleaf virus and Arabis mosaic virus.
    Elbeaino T, Digiaro M, Ghebremeskel S, Martelli GP.
    Virus Res; 2012 Jun 11; 166(1-2):136-40. PubMed ID: 22480575
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  • 13. Genetic variability, evolution, and biological effects of Grapevine fanleaf virus satellite RNAs.
    Gottula J, Lapato D, Cantilina K, Saito S, Bartlett B, Fuchs M.
    Phytopathology; 2013 Nov 11; 103(11):1180-7. PubMed ID: 23718838
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  • 15. Complete nucleotide sequence of the RNA-2 of grapevine deformation and Grapevine Anatolian ringspot viruses.
    Ghanem-Sabanadzovic NA, Sabanadzovic S, Digiaro M, Martelli GP.
    Virus Genes; 2005 May 11; 30(3):335-40. PubMed ID: 15830151
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  • 16. Structural basis of nanobody recognition of grapevine fanleaf virus and of virus resistance loss.
    Orlov I, Hemmer C, Ackerer L, Lorber B, Ghannam A, Poignavent V, Hleibieh K, Sauter C, Schmitt-Keichinger C, Belval L, Hily JM, Marmonier A, Komar V, Gersch S, Schellenberger P, Bron P, Vigne E, Muyldermans S, Lemaire O, Demangeat G, Ritzenthaler C, Klaholz BP.
    Proc Natl Acad Sci U S A; 2020 May 19; 117(20):10848-10855. PubMed ID: 32371486
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  • 17. Sensitive and reliable detection of grapevine fanleaf virus in a single Xiphinema index nematode vector.
    Demangeat G, Komar V, Cornuet P, Esmenjaud D, Fuchs M.
    J Virol Methods; 2004 Dec 01; 122(1):79-86. PubMed ID: 15488624
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  • 18. Development of degenerate and species-specific primers for the differential and simultaneous RT-PCR detection of grapevine-infecting nepoviruses of subgroups A, B and C.
    Digiaro M, Elbeaino T, Martelli GP.
    J Virol Methods; 2007 Apr 01; 141(1):34-40. PubMed ID: 17187868
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  • 19. Complete nucleotide sequences of the RNAs 2 of German isolates of grapevine fanleaf and Arabis mosaic nepoviruses.
    Wetzel T, Meunier L, Jaeger U, Reustle GM, Krczal G.
    Virus Res; 2001 Jun 01; 75(2):139-45. PubMed ID: 11325468
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  • 20. A single resistance factor to solve vineyard degeneration due to grapevine fanleaf virus.
    Djennane S, Prado E, Dumas V, Demangeat G, Gersch S, Alais A, Gertz C, Beuve M, Lemaire O, Merdinoglu D.
    Commun Biol; 2021 May 28; 4(1):637. PubMed ID: 34050254
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