F. A. Guzmán scite author profile

Summary Mal de Rio Cuarto virus (MRCV, Fijivirus) infects maize (Zea mays) and other gramineae, producing significant losses in Argentina. Although MRCV mainly affects maize, other cereals, such as wheat, serve as potential virus reservoirs and hosts for the planthopper vector Delphacodes kuscheli. Aspects of the virus‐vector relationships were elucidated by studying the minimum periods of acquisition access (AAPmin), latency (LPmin) and inoculation access (IAPmin) in wheat (Triticum aestivum L.). Trials were conducted under controlled conditions of temperature (24 ± 1°C), photoperiod (12 h light) and humidity (50 ± 5%). The results show that the AAPmin was 5 h, LPmin was 10 days (even though, the median latent period was between 16 and 17 days) and IAPmin was 30 min. Our experiments have demonstrated, for the first time, a persistent manner of virus transmission. No differences were detected in transmission ability between males and females. The implication of these results on virus taxonomy and epidemiology are discussed.

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Sequence analysis of genome segments S4 and S8 of Mal de Río Cuarto virus (MRCV): evidence that the virus should be a separate Fijivirus species

Distéfano¹,

Conci

Hidalgo³

et al. 2002

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This is the first sequence-based characterization of Mal de Río Cuarto virus (MRCV), currently classified as a variant of Maize rough dwarf virus (MRDV) and exclusively found in South America. We sequenced and analyzed genome segments S4 and S8. MRCV S4 coded for a putative 131.67 kDa protein while MRCV S8 coded for a putative 68.26 kDa protein containing an ATP/GTP-binding motif. The 5' and 3' ends of MRCV segments, were 5'AAGUUUUU3' and 5'CAGCUnnnGUC3', respectively. Prediction of secondary structure of both segments coding strands showed that terminal regions were able to form structures that are proposed to be replication and packaging signals. MRCV S4 showed identity to members of Fijivirus as well as to two other genera of the Reoviridae family. MRCV S8 revealed identity with Rice black streaked dwarf virus (RBSDV) S8, MRDV S7, Oat sterile dwarf virus (OSDV) S9 and Nilaparvata lugens reovirus (NLRV) S7. While MRDV and RBSDV segments are highly homologous between each other, MRCV identity levels with them was considerably lower. We discussed the evolutionary relationships of MRCV to other Reoviridae, and based on phylogenetic analysis we proposed that although MRCV is related to MRDV, it could be regarded as a new species of the Fijivirus genus.

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Sequence and phylogenetic analysis of genome segments S1, S2, S3 and S6 of Mal de Rı́o Cuarto virus, a newly accepted Fijivirus species

et al. 2003

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Sequencing of the bicistronic genome segments S7 and S9 of Mal de Río Cuarto virus (Fijivirus, Reoviridae) completes the genome of this virus

et al. 2006

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The nucleotide sequences of genomic segments S7 and S9 of Mal de Río Cuarto virus (MRCV, Fijivirus group II) have been determined, thus completing the entire genome sequence of the virus. These segments showed a non-overlapping bicistronic structure, as in other members of the genus. MRCV S7 ORF-1 had a length of 1086 bp and encoded a 41.5 kDa putative polypeptide, whereas MRCV S7 ORF-2 had a length of 930 bp and encoded a 36.8 kDa putative polypeptide. Proteins of 39 and 20.5 kDa were predicted for the 1014 bp long MRCV S9 ORF-1 and the 537 bp long MRCV S9 ORF-2, respectively. The terminal 5' and 3' sequences of both segments were 5'AAGUUUUU3' and 5'CAGCUnnnGUC3', respectively. Specific imperfect inverted repeats of each segment were identified. Comparison of the predicted proteins with those of related virus genome segments counterparts in maize rough dwarf virus (MRDV) and rice black streaked dwarf virus (RBSDV), showed 64.5-44.3% identities. These values are lower than those resulting from comparisons between MRDV and RBSDV. The topology of the trees obtained using the complete nucleotide and amino acid sequences of MRCV S7 and MRCV S9 was consistent with the analysis of the other MRCV segments previously published.

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Genetic diversity of 16SrIII group phytoplasmas in Argentina. Predominance of subgroups 16SrIII-J and B and two new subgroups 16SrIII-W and X

et al. 2013

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F. A. Guzmán

Transmission features of Mai de Río Cuarto virus in wheat by its planthopper vector Delphacodes kuscheli

Sequence analysis of genome segments S4 and S8 of Mal de Río Cuarto virus (MRCV): evidence that the virus should be a separate Fijivirus species

Sequence and phylogenetic analysis of genome segments S1, S2, S3 and S6 of Mal de Rı́o Cuarto virus, a newly accepted Fijivirus species

Sequencing of the bicistronic genome segments S7 and S9 of Mal de Río Cuarto virus (Fijivirus, Reoviridae) completes the genome of this virus

Genetic diversity of 16SrIII group phytoplasmas in Argentina. Predominance of subgroups 16SrIII-J and B and two new subgroups 16SrIII-W and X

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