Identification of Known and Novel MicroRNAs in Raspberry Organs Through High-Throughput Sequencing

Yan, Gengxuan; Zhang, Jie; Jiang, Meng; Gao, Xince; Yang, Hongyi; Li, Lili

doi:10.3389/fpls.2020.00728

Cited by 7 publications

(4 citation statements)

References 69 publications

(70 reference statements)

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“…This work confirms that virus discovery can be accelerated through the analysis and reinterpretation of public sequencing data (Maree, 2018;Villamor et al, 2019;Buddenhagen et al, 2021 andGhosh et al, 2022). In our case, datasets were derived from studies focused on basic genome and transcriptome characterization of Rubus species (Hyun et al, 2014;Garcia-Seco et al, 2015;Sharma et al, 2019;Chen et al, 2018;Yan et al, 2020;Li et al, 2021;Yang et al, 2021;Wu et al, 2022a,b;Brůna et al, 2023 andMcGavin et al, 2023); analysis of the transcriptional response to upon infection with pathogens (Arias et al, 2019 andGonzález et al, 2020); and the validation of virus detection pipelines (Baizan-Edge et al, 2019;Gauthier et al, 2022 andMcGavin et al, 2023). Our most interesting results involved the identification of a putative new member of the genus Brambyvirus in data from a transcriptomic analysis of flavonoid biosynthesis (Li et al, 2021); and a putative new member of the family Virgaviridae in data used to test a plant virus detection workflow (Baizan-Edge et al, 2019).…”

Section: Discussionsupporting

confidence: 79%

A global analysis of the Rubus virome using public transcriptome data

Higuita,

Pérez,

Gallo

et al. 2023

Preprint

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Viruses are the causal agent of some of the most limiting diseases in Rubus crops. In this regard, a detailed knowledge of the Rubus virome is essential for the successful implementation of mitigation strategies and to assess the risk of emergence of novel viral diseases. Fortunately, the widespread use of RNA sequencing to characterize diverse aspects about the biology of Rubus species can also be a valuable source of data on viruses associated with these hosts. Here, we present a meta-analysis of the Rubus virome based on the re-examination of public RNAseq data from nine Rubus species and 23 hybrid cultivars across the world. As a result, we identified 23 viruses and one viroid associated with the genus Rubus. Detected viruses are part of eleven families and 26 genera. We a provide evidence for existence of a second species in the genus Brambyvirus, and a novel member of the family Virgaviridae. Our data also revealed raspberry bushy dwarf virus (RBDV) to be the most prevalent and generalist Rubus virus across the world. In terms of number of species, the genus Ilarvirus and the family Closteroviridae were the most diverse taxonomic rank affecting Rubus. Network analysis revealed distinct Rubus viromes in different countries and analysis of coinfections revealed three main viral communities infecting these plant species across the world. We also provide information on virus variants from new locations across the world and data on potential emergent viruses from other plant hosts.

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Section: Discussionsupporting

confidence: 79%

A global analysis of the Rubus virome using public transcriptome data

Higuita,

Pérez,

Gallo

et al. 2023

Preprint

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“…[28][29][30] The mature sequences of miRNA were downloaded from miRbase (https://www.mirbase.org/), a local miRNA database was constructed, then a homology search was performed using the ncbi-blast-2.13.0 + program to identify the conserved miRNA with E-value of 0.001 and non-gap alignment. [31][32][33][34][35] Subsequently, the unaligned reads were used for predicting novel miRNAs using the MIREAP program. A total of 29 novel miRNAs were predicted using the software; however, only 11 novel miRNAs have proper precursor secondary structure and MFEI values of > 0.70.…”

Section: Data Analysis Of Small Rna Transcriptomementioning

confidence: 99%

Identification of Conserved and Novel MicroRNAs with their Targets in Garden Pea (Pisum sativum L.) Leaves by High-Throughput Sequencing

Khan

2023

Bioinform Biol Insights

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MicroRNAs (miRNAs) are single-stranded, endogenous, non-coding RNAs of 20–24 nucleotides that play a significant role in post-transcriptional gene regulation. Various conserved and novel miRNAs have been characterized, especially from the plant species whose genomes were well-characterized; however, information on miRNA in economically important plants such as pea ( Pisum sativum L.) is limited. In this study, I have identified conserved and novel miRNA in garden pea plant leaves samples along with their targets by analyzing the next generation sequencing (NGS) data. The raw data obtained from NGS were processed and 1.38 million high-quality non-redundant reads were retained for analysis, this tremendous quantity of reads indicates a large and diverse small RNA population in pea leaves. After analyzing the deep sequencing data, 255 conserved and 11 novel miRNAs were identified in the garden pea leaves sample. Utilizing psRNATarget tool, the miRNA targets of conserved and novel miRNA were predicted. Further, the functional annotation of the miRNA targets were performed using blast2Go software and the target gene products were predicted. The miRNA target gene products along with GO_ID (Gene Ontology Identifier) were categorized into biological processes, cellular components, and molecular functions. The information obtained from this study will provide genomic resources that will help in understanding miRNA-mediated post-transcriptional gene regulation in garden peas.

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“…Genes were mapped to Gene Ontology (GO) terms of biological progress (BP), molecular function (MF), and cell component (CC) in the GO database (Gene Ontology Consortium, 2004). GO terms with FDR corrected p-values < 0.05 were considered as significantly enriched in hypergeometric tests (Yan et al, 2020). P-values were calculated as follows:…”

Section: Functional Enrichment Analysismentioning

confidence: 99%

Integrated transcriptome and small RNA sequencing in revealing miRNA-mediated regulatory network of floral bud break in Prunus mume

et al. 2022

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MicroRNAs is one class of small non-coding RNAs that play important roles in plant growth and development. Though miRNAs and their target genes have been widely studied in many plant species, their functional roles in floral bud break and dormancy release in woody perennials is still unclear. In this study, we applied transcriptome and small RNA sequencing together to systematically explore the transcriptional and post-transcriptional regulation of floral bud break in P. mume. Through expression profiling, we identified a few candidate genes and miRNAs during different developmental stage transitions. In total, we characterized 1,553 DEGs associated with endodormancy release and 2,084 DEGs associated with bud flush. Additionally, we identified 48 known miRNAs and 53 novel miRNAs targeting genes enriched in biological processes such as floral organ morphogenesis and hormone signaling transudation. We further validated the regulatory relationship between differentially expressed miRNAs and their target genes combining computational prediction, degradome sequencing, and expression pattern analysis. Finally, we integrated weighted gene co-expression analysis and constructed miRNA-mRNA regulatory networks mediating floral bud flushing competency. In general, our study revealed the miRNA-mediated networks in modulating floral bud break in P. mume. The findings will contribute to the comprehensive understanding of miRNA-mediated regulatory mechanism governing floral bud break and dormancy cycling in wood perennials.

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Identification of Known and Novel MicroRNAs in Raspberry Organs Through High-Throughput Sequencing

Cited by 7 publications

References 69 publications

A global analysis of the Rubus virome using public transcriptome data

A global analysis of the Rubus virome using public transcriptome data

Identification of Conserved and Novel MicroRNAs with their Targets in Garden Pea (Pisum sativum L.) Leaves by High-Throughput Sequencing

Integrated transcriptome and small RNA sequencing in revealing miRNA-mediated regulatory network of floral bud break in Prunus mume

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