Characterisation of a satellite RNA of Cucumber mosaic virus that induces chlorosis in Capsicum annuum.

The presence of Cucumber mosaic virus (CMV) satellite RNA dramatically changes symptoms on some hosts. A satellite RNA present in a strain of CMV (PepY-CMV) that induced chlorosis in pepper (Capsicum annuum) was shown to induce chlorosis in pepper in combination with another strain (Fny-CMV) that by itself induced a green mosaic symptom. The location of sequences within the PepY satellite RNA (PepY-satRNA) of CMV that conferred the ability to induce chlorosis on pepper plants were analyzed by exchanging sequence domains between cDNA clones of PepY-satRNA and an attenuated mosaic satellite RNA (Paf-satRNA), as well as site-directed mutagenesis of various clusters of the 22-nt sequence differences between the two satellite RNAs in the delimited central domain. The symptoms induced by site-directed mutants of PepY-satRNA and Paf-satRNA in the presence of Fny-CMV demonstrated an insertion within PepY-satRNA of 11 nt at positions 86-96 relative to Paf-satRNA determined the chlorosis-inducing phenotype. Within the chlorosis-inducing domain, deletion of nucleotides did not affect the satRNA replication but abolished the ability of PepY-satRNA to elicit chlorosis symptom. Conversely, a mutant satellite RNA derived from Paf-satRNA in which eleven nucleotides were inserted indicated that sequences of 11 nucleotides were found to be sufficient for chlorosis induction in pepper.

Involvement of RNA2 for systemic infection of Cucumber mosaic virus isolated from lily on zucchini squash.

A lily strain of Cucumber mosaic virus (LK-CMV) was not able to systemically infect zucchini squash (Cucurbita pepo), while Fny strain of CMV (Fny-CMV) caused systemic mosaic and stunting symptom at 4 days post-inoculation on the same host species. The pathogenicity of LK-CMV in zucchini squash was investigated by reassortments of genomic RNAs of LK-CMV and Fny-CMV for infection, as well as by pseudorecombinants generated from biologically active transcripts of cDNA clones of LK-CMV and Fny-CMV, respectively. The assessments of pathogenicity for LK-CMV indicated that RNA2 of LK-CMV was responsible for systemic infection in zucchini squash. In the protoplast of zucchini squash, the RNA accumulations of all constructed pseudorecombinants were indistinguishable and LK-CMV replication was slightly lower than that of Fny-CMV, suggesting that the inability of LK-CMV to infect squash plants was responsible for the poor efficiency of virus movement, rather than the reduction of replication function.

Generation of infectious cDNA clones of a Korean strain of tomato aspermy virus.

Infectious full-length cDNA clones of the Korean strain of tomato aspermy cucumovirus (KC-TAV) were constructed using a long-template reverse transcription-polymerase chain reaction. The in vitro RNA transcripts, which were produced using T7 RNA polymerase from full-length cDNAs, could systemically infect the Nicotiana tabacum cv. Xanti-nc plants and induce systemic symptoms on the upper leaves that are similar to the wildtype KC-TAV. The complete nucleotide sequences of genomic RNAs of KC-TAV were determined from the infectious full-length cDNA clones. RNA1 and RNA2 of KC-TAV contain 3412 nucleotides and 3074 nucleotides, respectively. RNA3 of KC-TAV, 2222 nucleotides long, encodes the 3a protein and coat protein (CP) that are separated by 295 nucleotides intergenic region. The overall sequence analysis of the whole genome of KC-TAV revealed a strong homology (99%) to the genome of the V-TAV strain, the only strain whose entire genomic nucleotide sequence was available in the database, and an overall 60% homology to those of other cucumber mosaic virus and peanut stunt virus strains. A sequence comparison analysis of the deduced amino acid sequences of cDNAs of KC-TAV RNA 1, 2, and 3 indicates that there is no genetic diversity in the TAV population, although the virus exists in different geographical distributions.

Genome Structure and Production of Biologically Active In Vitro Transcripts of Cucurbit-Infecting Zucchini green mottle mosaic virus.

ABSTRACT The complete nucleotide sequence of the Zucchini green mottle mosaic virus (ZGMMV), a new member of the genus Tobamovirus, has been determined. The genome of ZGMMV is 6,513 nucleotides long and contains four open reading frames coding for proteins of 131, 189, 28, and 17 kDa from the 5' to 3' end, respectively. The 5'- and 3'-non-translated regions consist of 59 and 163 residues, respectively. The sequences of the viral proteins exhibit high identity to the proteins of the members of the genus Tobamovirus and are distinct from other viruses within the subgroup of cucurbit-infecting tobamoviruses. Results from phylogenetic trees of the coding regions demonstrated that ZGMMV is a very close relative of Kyuri green mottle mosaic virus and Cucumber fruit mottle mosaic virus and is less similar to Cucumber green mottle mosaic virus. Full-length cDNA of ZGMMV was directly amplified by reverse-transcription polymerase chain reaction (RT-PCR) using the 5'-end primer containing a T7 RNA promoter sequence and 3'-end primer. Capped in vitro transcript from the RT-PCR products was infectious on zucchini squash, cucumber, and Nicotiana benthamiana plants. This cell-free system to produce infectious transcripts from uncloned cDNA copies is useful for quick assessment of infectivity of transcripts from plant RNA viruses prior to cloning. Synthesized capped transcript from a full-length cDNA clone of the virus was highly infectious. Progeny virus derived from infectious transcripts had the same biological and biochemical properties as wild-type virus. To our knowledge, this is the first report of a biologically active transcript from a cucurbit-infecting tobamovirus.

First Report of Peanut stripe virus (Family Potyviridae) in South Korea.

Severe mosaic symptoms resembling those reported for a blotch isolate of Peanut stripe virus (PStV) (1) were observed in the year 1998 in Suwon, South Korea, on several peanut cultivars. The incidence of the virus was as high as 100% in cv. Daekwang. The virus was seed transmitted to varying degrees depending on the cultivar and a maximum seed transmission of 15.7% was observed in cv. Aul. Electron microscopic examination of leaf dip preparations showed filamentous rods having modal length of 720 nm. Viral inclusion bodies in infected cells were of pinwheel, scroll, and laminated aggregates. The 3' terminal region of the viral genome was amplified using degenerate primers (2) and the resulting approximately 700 bp fragment was cloned and sequenced. GenBank searches using the 709 nucleotides consisting of the complete 3'-untranslated region and a part of the coat protein gene showed that the virus shared 98% sequence identity with the currently known PStV isolates. To our knowledge, this is the first report of PStV in the Republic of Korea. References: (1) J. W. Demski et al. Ann. Appl. Biol. 105:495, 1984. (2) S. S. Pappu et al. J. Virol. Methods 41:9, 1993.

Genetic mapping of the compatibility between a lily isolate of Cucumber mosaic virus and a satellite RNA.

Five isolates of Cucumber mosaic virus (CMV) from Lilium sp. (lily), which were isolated from specimens in Japan, Korea and Taiwan, were unable to support satellite RNA (satRNA) accumulation. In order to map the CMV sequences that are involved in satRNA support, HL-CMV (Japanese lily isolate), Y-CMV (ordinary strain) and Y-satellite RNA (Y-sat) were used as the source material. The pseudorecombinants between Y-CMV and HL-CMV revealed that RNA1 was essential for satRNA replication in lily. The results of chimeric constructs and various mutations showed that two amino acid residues (at positions 876 and 891) in the 1a protein were the determinants for the inability of HL-CMV to support a satRNA. Specifically, Thr at position 876 had a more pronounced effect than Met at position 891. Specific changes in RNA sequence were also detected in the 3' terminus of Y-sat and these particular alterations allowed it to be supported by HL-CMV. It is believed that, through evolution, the adaptation of CMV to lily resulted in the introduction of amino acid changes in the 1a protein, changes that coincidentally affected the ability of lily CMV to support satRNAs.

Cucumber mosaic virus 2a polymerase and 3a movement proteins independently affect both virus movement and the timing of symptom development in zucchini squash.

The basis for differences in the timing of systemic symptom elicitation in zucchini squash between a pepper strain of Cucumber mosaic virus (Pf-CMV) and a cucurbit strain (Fny-CMV) was analysed. The difference in timing of appearance of systemic symptoms was shown to map to both RNA 2 and RNA 3 of Pf-CMV, with pseudorecombinant viruses containing either RNA 2 or RNA 3 from Pf-CMV showing an intermediate rate of systemic symptom development compared with those containing both or neither Pf-CMV RNAs. Symptom phenotype was shown to map to two single-nucleotide changes, both in codons for Ile at aa 267 and 168 (in Fny-CMV RNAs 2 and 3, respectively) to Thr (in Pf-CMV RNAs 2 and 3). The differential rate of symptom development was shown to be due to differences in the rates of cell-to-cell movement in the inoculated cotyledons, as well as differences in the rate of egress of the virus from the inoculated leaves. These data indicate that both the CMV 3a movement protein and the CMV 2a polymerase protein affect the rate of movement of CMV in zucchini squash and that these two proteins function independently of each other in their interactions with the host, facilitating virus movement.

Systemic movement of a movement-deficient strain of Cucumber mosaic virus in zucchini squash is facilitated by a cucurbit-infecting potyvirus.

Zucchini squash (Cucurbita pepo) is a systemic host for most strains of the cucumovirus Cucumber mosaic virus (CMV), although the long-distance movement of the M strain of CMV (M-CMV) is inhibited in some cultivars. However, co-infection of zucchini plants with M-CMV and the potyvirus Zucchini yellow mosaic virus strain A (ZYMV-A) allowed M-CMV to move systemically, as demonstrated by tissue-print analysis. These doubly infected plants exhibited severe synergism in pathology. Infection of zucchini squash by M-CMV and an attenuated strain of ZYMV (ZYMV-AG) showed a milder synergy in pathology, in which ZYMV-AG also facilitated the long-distance movement of M-CMV similar to that promoted by ZYMV-A. Variation in the extent of synergy in pathology by the two strains of ZYMV did not correlate with differences in levels of accumulation of either virus. Thus, the extent of synergy in pathology is at least in part independent of the resistance-neutralizing function of the potyvirus.