A Cucumber Necrosis Virus Variant Deficient in Fungal Transmissibility Contains an Altered Coat Protein Shell Domain

Robbins, Marjorie; Reade, Ron; Rochon, D’Ann

doi:10.1006/viro.1997.8635

Cited by 40 publications

(51 citation statements)

References 39 publications

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“…In cases where plant virus transmission has been studied in detail, the capsid protein has been shown to be the primary determinant for transmission by vectors (13,14,37,40). The interactions between virus capsid proteins and their vectors are either direct or mediated by an accessory or helper protein (22,38).…”

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confidence: 99%

“…Genetic studies have revealed that specific viral capsid protein domains and amino acids are determinative for transmissibility and vector specificity. Examples can be found for aphid-transmitted viruses in the genera Potyvirus (1,2,11), Luteovirus (53), Polerovirus (3), Enamovirus (7), and Cucumovirus (35,36,44); for the nematode-transmitted viruses in the genus Tobravirus (25); and for fungus-transmitted viruses in the genera Tombusvirus (18,40) and Benyvirus (52). An emerging theme for a number of these viruses is that a minor capsid protein readthrough protein plays an important role in transmission; this protein is generated by a mechanism involving readthrough of the major capsid protein stop codon (reviewed in reference 4).…”

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A Conserved Capsid Protein Surface Domain of Cucumber Mosaic Virus Is Essential for Efficient Aphid Vector Transmission

Liu

Park

et al. 2002

J Virol

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A prominent feature on the surfaces of virions of Cucumber mosaic virus (CMV) is a negatively charged loop structure (the ␤H-␤I loop). Six of 8 amino acids in this capsid protein loop are highly conserved among strains of CMV and other cucumoviruses. Five of these amino acids were individually changed to alanine or lysine (an amino acid of opposite charge) to create nine mutants (the D191A, D191K, D192A, D192K, L194A, E195A, E195K, D197A, and D197K mutants). Transcripts of cDNA clones were infectious when they were mechanically inoculated onto tobacco, giving rise to symptoms of a mottle-mosaic typical of the wild-type virus (the D191A, D191K, D192A, E195A, E195K, and D197A mutants), a systemic necrosis (the D192K mutant), or an atypical chlorosis with necrotic flecking (the L194A mutant). The mutants formed virions and accumulated to wild-type levels, but eight of the nine mutants were defective in aphid vector transmission. The aspartate-to-lysine mutation at position 197 interfered with infection; the only recovered progeny (the D197K‫ء‬ mutant) harbored a second-site mutation (denoted by the asterisk) of alanine to glutamate at position 193, a proximal site in the ␤H-␤I loop. Since the disruption of charged amino acid residues in the ␤H-␤I loop reduces or eliminates vector transmissibility without grossly affecting infectivity or virion formation, we hypothesize that this sequence or structure has been conserved to facilitate aphid vector transmission.

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confidence: 99%

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confidence: 99%

A Conserved Capsid Protein Surface Domain of Cucumber Mosaic Virus Is Essential for Efficient Aphid Vector Transmission

Liu

Park

et al. 2002

J Virol

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“…However, for the most part, the exact role of these amino acids in transmission including their potential role in vector attachment, is not known. Recent work with cucumber necrosis virus (CNV) has suggested that attachment of virions to vector zoospores is an important aspect of the transmission process (24).…”

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confidence: 99%

“…Transmission of CNV in nature occurs via zoospores of the Chytridiomycete fungus, Olpidium bornovanus (6,9,24). Zoospores and virus particles are released independently into the soil from the roots of infected plants.…”

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“…Previous work has shown that the CNV CP contains determinants that specify its interaction with zoospores of O. bornovanus (20,24). Reciprocal exchanges between the CP gene of CNV and that of the nontransmissible cherry strain of Tomato bushy stunt virus (TBSV) in infectious full-length cDNA clones showed that particles obtained from the TBSV genome containing the CNV CP were transmissible but particles from the CNV genome containing the TBSV CP were not.…”

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Identification of Specific Cucumber Necrosis Virus Coat Protein Amino Acids Affecting Fungus Transmission and Zoospore Attachment

Kakani

Sgro

Rochon

2001

J Virol

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Cucumber necrosis virus (CNV) is naturally transmitted in the soil by zoospores of the fungal vectorOlpidium bornovanus. Successful transmission requires that virus particles attach to the surface of zoospores prior to zoospore encystment on host roots. Mechanically passaged CNV was screened for mutants deficient in fungus transmission. We found six such mutants, exhibiting transmission efficiencies ranging from approximately 14 to 76% of that of wild-type (WT) CNV. Results of in vitro virus-zoospore binding assays show that each mutant binds to zoospores less efficiently than WT CNV (21 to 68%), suggesting that defects in transmission for these mutants are at least partially due to inefficient zoospore binding. Analysis of the structure of the CNV coat protein subunit and trimer indicates that affected amino acids in all of the mutants are located in the shell or protruding domain and that five of six of them are potentially exposed on the surface of the virus particle. In addition, several of the mutated sites, along with a previously identified site in a Efficient transmission of the majority of plant viruses requires distinct invertebrate or fungal vectors. In most cases, transmission has been shown to be a highly specific process in which only certain vectors can transmit certain viruses (for reviews, see references 4, 6, 13, 14, 23, and 35). These observations suggest that virus particles as well as vectors contain specific sites that mediate their recognition. The coat protein (CP) of a plant virus has been shown to play an important role in transmission, and particular amino acids within the CP have been shown to be essential for this process (for reviews, see references 4, 6, 13, 14, 23, and 35). However, for the most part, the exact role of these amino acids in transmission including their potential role in vector attachment, is not known. Recent work with cucumber necrosis virus (CNV) has suggested that attachment of virions to vector zoospores is an important aspect of the transmission process (24).CNV, a member of the genus Tombusvirus, is a 30-nm spherical virus with a monopartite positive-sense RNA genome (25). Transmission of CNV in nature occurs via zoospores of the Chytridiomycete fungus, Olpidium bornovanus (6, 9, 24). Zoospores and virus particles are released independently into the soil from the roots of infected plants. Virus is adsorbed onto the plasma membrane of zoospores and then enters into roots upon zoospore encystment. Studies of CNV transmission by O.bornovanus, and Olpidium transmission of several other small spherical plant viruses, have shown that the transmission process is highly specific (1, 6). For example, O. bornovanus transmits CNV but not Tobacco necrosis necrovirus (TNV), and conversely, O. brassicae transmits TNV but not CNV (10, 34). Moreover, different isolates of O. bornovanus transmit different viruses with varying efficiency (7), and different strains of TNV are transmitted with varying efficiency by the same O. brassicae isolate (17,33,34). Electron microscopy st...

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Fungal Transmission of Plant Viruses

Rochon

2009

CP Microbiology

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Fungal zoospores of Olpidium species transmit several viruses in the family Tombusviridae as well as in the Ophio‐ and Varicosavirus genera. This unit describes procedures for virus transmission by Olpidium sp. The method is useful for assessing fungal transmissibility of a given virus as well as for further studies on molecular and biological aspects of virus/vector interaction. Curr. Protoc. Microbiol. 12:16B.4.1‐16B.4.17. © 2009 by John Wiley & Sons, Inc.

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A Cucumber Necrosis Virus Variant Deficient in Fungal Transmissibility Contains an Altered Coat Protein Shell Domain

Cited by 40 publications

References 39 publications

A Conserved Capsid Protein Surface Domain of Cucumber Mosaic Virus Is Essential for Efficient Aphid Vector Transmission

A Conserved Capsid Protein Surface Domain of Cucumber Mosaic Virus Is Essential for Efficient Aphid Vector Transmission

Identification of Specific Cucumber Necrosis Virus Coat Protein Amino Acids Affecting Fungus Transmission and Zoospore Attachment

Fungal Transmission of Plant Viruses

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