RNA2 of grapevine fanleaf virus: sequence analysis and coat protein cistron location

Serghini, Mohammed Amine; Fuchs, Marc; Pinck, Monique; Reinbolt, Joseph; Walter, Bernard; Pinck, L.

doi:10.1099/0022-1317-71-7-1433

Cited by 129 publications

(114 citation statements)

References 31 publications

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“…1 a). The cleavages occur at the Cys257/Ala 258 and Arg6°5/Gly 6°6 sites between P28/P38 and P38/CP respectively Serghini et al, 1990 Biologically active full-length transcripts of RNA2 (clone pACN) and RNAI (clone pMV) have been obtained (Viry et al, 1993) which allowed us to demonstrate that GFLV RNA1 can autoreplicate in protoplasts and thus encodes the viral replication functions. In contrast RNA2, which requires for its replication the functions encoded by RNA1, is needed for virus spread in plants and thus encodes functions necessary for viral movement (Viry et al, 1993).…”

mentioning

confidence: 99%

“…1 a). The cleavages occur at the Cys257/Ala 258 and Arg6°5/Gly 6°6 sites between P28/P38 and P38/CP respectively Serghini et al, 1990). …”

Section: Introductionmentioning

confidence: 99%

“…Its genetic information is divided over two plus-stranded RNA molecules: RNA1 (7342 nt) (Ritzenthaler et al, 1991) encodes a 253 kDa polyprotein (P1) and RNA2 (3774nt) (Serghini et al, 1990) encodes a 122kDa polyprotein (P2). In vitro both polyproteins are proteolytically processed by the RNAl-encoded 24 kDa chymotrypsin-like cysteine proteinase (Margis & Pinck, 1992;Margis et al, 1991).…”

Section: Introductionmentioning

confidence: 99%

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Grapevine fanleaf nepovirus P38 putative movement protein is not transiently expressed and is a stable final maturation product in vivo

Ritzenthaler

Pinck

1995

Journal of General Virology

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The putative 38 kDa movement protein (P38) gene, located on the RNA2 of grapevine fanleaf nepovirus (GFLV), was cloned in Escherichia coli and expressed as a fusion protein fused to six histidines (6HisP38). This protein was purified and used to produce a specific polyclonal antiserum from which immunoglobulins were isolated by immunoaffinity against the recombinant 6HisP38. Western immunoblot analyses on GFLV RNA2 in vitro maturation products showed that the antibodies were specific for P38 protein. This protein was detected as early as 18 h post-inoculation in GFLVinfected Chenopodium quinoa protoplasts and accumulated to very high levels. Tissue-prints and time course experiments on infected C. quinoa plants confirmed that P38 is present at a high level late in infection and is a final maturation product of the GFLV RNA2 polyprotein in vivo. P94 and P66 intermediates of maturation and polyprotein P2 were also detected in vivo but in very low concentrations. No significant difference was observed in the relative amounts of P66 and P94 detected in vivo, contrary to what occurs in vitro. Subcellular fractionation studies showed that P38, although mainly cytosolic, is also found in association with cell wall and membranes. Thought to be the GFLV movement protein, P38 would thus behave in an 'atypical' manner. IntroductionGrapevine fanleaf virus (GFLV) belongs to the genus Nepovirus in the family Comoviridae (Ward, 1993). Its genetic information is divided over two plus-stranded RNA molecules: RNA1 (7342 nt) (Ritzenthaler et al., 1991) encodes a 253 kDa polyprotein (P1) and RNA2 (3774nt) (Serghini et al., 1990) encodes a 122kDa polyprotein (P2). In vitro both polyproteins are proteolytically processed by the RNAl-encoded 24 kDa chymotrypsin-like cysteine proteinase (Margis & Pinck, 1992;Margis et al., 1991). Polyprotein P1 is cleaved at various sites: Cys415/Ala 416 (Margis et al., 1994), Cys1217/Ser 121s, Gly124X/Glu ~242 , and Arg1461/Gly 1402 (Ritzenthaler et al., 1991) to release, from the N terminus to the C terminus, a 46 kDa protein, an 88 kDa putative helicase, the VPg, the 24 kDa proteinase and a 94 kDa putative viral RNA polymerase. Upon in vitro translation, polyprotein P2 is converted into three final products: a 28 kDa N-terminal protein (P28), a 38 kDa protein (P38) and the C-terminal 56 kDa coat protein (CP) (Fig. 1 a). The cleavages occur at the Cys257/Ala 258 and Arg6°5/Gly 6°6 sites between P28/P38 and P38/CP respectively Serghini et al., 1990 Biologically active full-length transcripts of RNA2 (clone pACN) and RNAI (clone pMV) have been obtained (Viry et al., 1993) which allowed us to demonstrate that GFLV RNA1 can autoreplicate in protoplasts and thus encodes the viral replication functions. In contrast RNA2, which requires for its replication the functions encoded by RNA1, is needed for virus spread in plants and thus encodes functions necessary for viral movement (Viry et al., 1993). By analogy with related comoviruses, it has been proposed that the protein adjacent to the capsid protein cont...

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mentioning

confidence: 99%

“…1 a). The cleavages occur at the Cys257/Ala 258 and Arg6°5/Gly 6°6 sites between P28/P38 and P38/CP respectively Serghini et al, 1990). …”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Grapevine fanleaf nepovirus P38 putative movement protein is not transiently expressed and is a stable final maturation product in vivo

Ritzenthaler

Pinck

1995

Journal of General Virology

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“…VPg, proteinase and RNA-dependent RNA polymerase (RDRP) are the RNA1-encoded proteins. RNA2 codes for a protein (2A HP ) which is required for RNA2 replication and could act as homing protein [10], the movement protein (2B MP ) which is the constituent protein of tubules observed in plasmodesmata [27], and the coat protein (2C CP ) [32]. The complete RNA 1 (7,342 nt) for strain F13 [27], the RNA2 (3,774 nt) for strain F13 [32] and the German isolates, NW [40] have been sequenced.…”

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confidence: 99%

“…In PCR reactions, two combinations of primers, 5 0 NC/G0 or 5 0 NC/GMPR1, were used. 5 0 NC (5 0 CCAAGAGTTT(A/G)(A/G)GAAACTCA3 0 ) and G0 (5 0 CAGAATTCCCTTACCCTCTC3 0 ) corresponding to nucleotides (nts) 109-128 and 881-900 of GFLV-F13 [32] were designed by [40] as the forward and reverse primers, respectively. Amplification by these primers was expected to produce a 792 bp fragment encompassing 126 nts of 5 0 UTR and 668 nts of 5 0 proximity of 2A HP gene located on the virus RNA2 segment.…”

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confidence: 99%

Molecular Characterization of Phylogenetically Distinct Isolates of Grapevine fanleaf virus from Iran Based on 2AHP Gene

2012

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Movement and coat protein genes from Grapevine fanleaf virus (GFLV) isolates have been characterized previously from Iran. In this study, an optimized reverse transcription polymerase chain reaction protocol was established to amplify RNA2 genomic segment corresponding to the hypothetical protein (2A HP ). The sequence of 2A HP was compared with that of previously reported GFLV strains/isolates from other countries which showed 82-86% sequence identities. The 2A HP gene from Iran appeared to be standing distinct from other isolates of GFLV when genetic distance-or parsimony-based phylogeneitc analyses were carried out. The present study for the first time reports characterization of Iranian isolate of GFLV based on 2A HP gene.

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Mutagenesis of Amino Acids at Two Tomato Ringspot Nepovirus Cleavage Sites: Effect on Proteolytic Processingin cisandin transby the 3C-like Protease

Carrier

Hans²,

Sanfaçon

1999

Virology

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Tomato ringspot nepovirus (ToRSV) encodes two polyproteins that are processed by a 3C-like protease at specific cleavage sites. Analysis of ToRSV cleavage sites identified previously and in this study revealed that cleavage occurs at conserved Q/(G or S) dipeptides. In addition, a Cys or Val is found in the -2 position. Amino acid substitutions were introduced in the -6 to +1 positions of two ToRSV cleavage sites: the cleavage site between the protease and putative RNA-dependent RNA polymerase, which is processed in cis, and the cleavage site at the N-terminus of the movement protein, which is cleaved in trans. The effect of the mutations on proteolytic processing at these sites was tested using in vitro translation systems. Substitution of conserved amino acids at the -2, -1, and +1 positions resulted in a significant reduction in proteolytic processing at both cleavage sites. The effects of individual substitutions were stronger on the cleavage site processed in trans than on the one processed in cis. The cleavage site specificity of the ToRSV protease is discussed in comparison to that of related proteases.

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RNA2 of grapevine fanleaf virus: sequence analysis and coat protein cistron location

Cited by 129 publications

References 31 publications

Grapevine fanleaf nepovirus P38 putative movement protein is not transiently expressed and is a stable final maturation product in vivo

Grapevine fanleaf nepovirus P38 putative movement protein is not transiently expressed and is a stable final maturation product in vivo

Molecular Characterization of Phylogenetically Distinct Isolates of Grapevine fanleaf virus from Iran Based on 2AHP Gene

Mutagenesis of Amino Acids at Two Tomato Ringspot Nepovirus Cleavage Sites: Effect on Proteolytic Processingin cisandin transby the 3C-like Protease

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