Expanding the Plant Virome: Umbra-Like Viruses Use Host Proteins for Movement

Simon, Anne E.; Quito-Avila, Diego F.; Bera, Sayanta

doi:10.1146/annurev-virology-111821-122718

Annual Review of Virology

2024

DOI: 10.1146/annurev-virology-111821-122718

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Expanding the Plant Virome: Umbra-Like Viruses Use Host Proteins for Movement

Anne E. Simon,

Diego F. Quito-Avila,

Sayanta Bera

Abstract: Before the very recent discovery of umbra-like viruses (ULVs), the signature defining feature of all plant RNA viruses was the encoding of specialized RNA-binding movement proteins (MPs) for transiting their RNA genomes through gated plasmodesmata to establish systemic infections. The vast majority of ULVs share umbravirus-like RNA-dependent RNA polymerases and 3′-terminal structures, but they differ by not encoding cell-to-cell and long-distance MPs and by not relying on a helper virus for trans-encapsidation… Show more

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2024

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Cited by 2 publications

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Direct nanopore RNA sequencing of umbra-like virus-infected plants reveals long non-coding RNAs, specific cleavage sites, D-RNAs, foldback RNAs, and temporal- and tissue-specific profiles

Johnson,

Needham,

Lim

et al. 2024

NAR Genomics and Bioinformatics

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The traditional view of plus (+)-strand RNA virus transcriptomes is that infected cells contain a limited variety of viral RNAs, such as full-length (+)-strand genomic RNA(s), (–)-strand replication intermediate(s), 3′ co-terminal subgenomic RNA(s), and viral recombinant defective (D)-RNAs. To ascertain the full complement of viral RNAs associated with the simplest plant viruses, long-read direct RNA nanopore sequencing was used to perform transcriptomic analyses of two related umbra-like viruses: citrus yellow vein-associated virus (CY1) from citrus and CY2 from hemp. Analysis of different timepoints/tissues in CY1- and CY2-infected Nicotiana benthamiana plants and CY2-infected hemp revealed: (i) three 5′ co-terminal RNAs of 281 nt, 442 nt and 671 nt, each generated by a different mechanism; (ii) D-RNA populations containing the 671 fragment at their 5′ends; (iii) many full-length genomic RNAs and D-RNAs with identical 3′end 61 nt truncations; (iv) virtually all (–)-strand reads missing 3 nt at their 3′ termini; (v) (±) foldback RNAs comprising about one-third of all (–)-strand reads and (vi) a higher proportion of full-length gRNAs in roots than in leaves, suggesting that roots may be functioning as a gRNA reservoir. These findings suggest that viral transcriptomes are much more complex than previously thought.

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Direct nanopore RNA sequencing of umbra-like virus-infected plants reveals long non-coding RNAs, specific cleavage sites, D-RNAs, foldback RNAs, and temporal- and tissue-specific profiles

Johnson,

Needham,

Lim

et al. 2024

NAR Genomics and Bioinformatics

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PP2 gene family in Phyllostachys edulis: identification, characterization, and expression profiles

Zheng,

Zheng

et al. 2024

BMC Genomics

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Background Phloem protein 2 (PP2), a dimeric lectin, is known for its involvement in plant responses to biotic and abiotic stresses. However, research on PP2 proteins in Moso bamboo is lacking. Results In this study, comprehensive genome-wide analysis of the PP2-like gene family was conducted in Moso bamboo ( Phyllostachys edulis ), which has a significant economic and ecological value. Using HMMER3 search and InterPro domain analysis, 23 PP2-like genes ( PhePP2-1 to PhePP2-23 ) were identified in the P. edulis genome. These genes were distributed across 12 chromosomal scaffolds, with proteins ranging from 216 to 556 amino acids in length. Phylogenetic analysis, including 163 PP2 proteins from eight plant species, revealed six distinct groups, with Group III and Group V being the largest. Gene structure and motif analyses indicated conserved domains across the PhePP2 proteins. In addition, Cis -element analysis of the promoter regions highlighted their potential regulatory roles in hormone, stress, and light responses. Expression pattern analysis using RNA-seq data showed differential expression of PhePP2 genes under drought, salt, salicylic acid, and abscisic acid treatments, indicating their involvement in stress response pathways. Furthermore, qPCR validation in different tissues and organs of Moso bamboo confirmed the expression profiles of the selected PhePP2 genes. Conclusions This study provides a comprehensive understanding of the functional roles of PP2-like genes in Moso bamboo and insights into their potential applications in enhancing stress tolerance and growth in plants. Supplementary Information The online version contains supplementary material available at 10.1186/s12864-024-11007-5.

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Expanding the Plant Virome: Umbra-Like Viruses Use Host Proteins for Movement

Cited by 2 publications

References 76 publications

Direct nanopore RNA sequencing of umbra-like virus-infected plants reveals long non-coding RNAs, specific cleavage sites, D-RNAs, foldback RNAs, and temporal- and tissue-specific profiles

Direct nanopore RNA sequencing of umbra-like virus-infected plants reveals long non-coding RNAs, specific cleavage sites, D-RNAs, foldback RNAs, and temporal- and tissue-specific profiles

PP2 gene family in Phyllostachys edulis: identification, characterization, and expression profiles

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