Recent advances and potential applications of cross-kingdom movement of miRNAs in modulating plant’s disease response

In the recent past, cross-kingdom movement of miRNAs, small (20–25 bases), and endogenous regulatory RNA molecules has emerged as one of the major research areas to understand the potential implications in modulating the plant’s biotic stress response. The current review discussed the recent develop...
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Autor*in:	Tilahun Rabuma [verfasserIn] Om Prakash Gupta [verfasserIn] Vinod Chhokar [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	mirnas cross kingdom movement spray-induced gene silencing (sigs) crop protection biotic stress

Übergeordnetes Werk:	In: RNA Biology - Taylor & Francis Group, 2022, 19(2022), 1, Seite 519-532
Übergeordnetes Werk:	volume:19 ; year:2022 ; number:1 ; pages:519-532

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc Journal toc

DOI / URN:	10.1080/15476286.2022.2062172

Katalog-ID:	DOAJ100116698

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source	In RNA Biology 19(2022), 1, Seite 519-532 volume:19 year:2022 number:1 pages:519-532
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author	Tilahun Rabuma
spellingShingle	Tilahun Rabuma misc QH426-470 misc mirnas misc cross kingdom movement misc spray-induced gene silencing (sigs) misc crop protection misc biotic stress misc Genetics Recent advances and potential applications of cross-kingdom movement of miRNAs in modulating plant’s disease response
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topic	misc QH426-470 misc mirnas misc cross kingdom movement misc spray-induced gene silencing (sigs) misc crop protection misc biotic stress misc Genetics
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title	Recent advances and potential applications of cross-kingdom movement of miRNAs in modulating plant’s disease response
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title_auth	Recent advances and potential applications of cross-kingdom movement of miRNAs in modulating plant’s disease response
abstract	In the recent past, cross-kingdom movement of miRNAs, small (20–25 bases), and endogenous regulatory RNA molecules has emerged as one of the major research areas to understand the potential implications in modulating the plant’s biotic stress response. The current review discussed the recent developments in the mechanism of cross-kingdom movement (long and short distance) and critical cross-talk between host’s miRNAs in regulating gene function in bacteria, fungi, viruses, insects, and nematodes, and vice-versa during host-pathogen interaction and their potential implications in crop protection. Moreover, cross-kingdom movement during symbiotic interaction, the emerging role of plant’s miRNAs in modulating animal’s gene function, and feasibility of spray-induced gene silencing (SIGS) in combating biotic stresses in plants are also critically evaluated. The current review article analysed the horizontal transfer of miRNAs among plants, animals, and microbes that regulates gene expression in the host or pathogenic organisms, contributing to crop protection. Further, it highlighted the challenges and opportunities to harness the full potential of this emerging approach to mitigate biotic stress efficiently.
abstractGer	In the recent past, cross-kingdom movement of miRNAs, small (20–25 bases), and endogenous regulatory RNA molecules has emerged as one of the major research areas to understand the potential implications in modulating the plant’s biotic stress response. The current review discussed the recent developments in the mechanism of cross-kingdom movement (long and short distance) and critical cross-talk between host’s miRNAs in regulating gene function in bacteria, fungi, viruses, insects, and nematodes, and vice-versa during host-pathogen interaction and their potential implications in crop protection. Moreover, cross-kingdom movement during symbiotic interaction, the emerging role of plant’s miRNAs in modulating animal’s gene function, and feasibility of spray-induced gene silencing (SIGS) in combating biotic stresses in plants are also critically evaluated. The current review article analysed the horizontal transfer of miRNAs among plants, animals, and microbes that regulates gene expression in the host or pathogenic organisms, contributing to crop protection. Further, it highlighted the challenges and opportunities to harness the full potential of this emerging approach to mitigate biotic stress efficiently.
abstract_unstemmed	In the recent past, cross-kingdom movement of miRNAs, small (20–25 bases), and endogenous regulatory RNA molecules has emerged as one of the major research areas to understand the potential implications in modulating the plant’s biotic stress response. The current review discussed the recent developments in the mechanism of cross-kingdom movement (long and short distance) and critical cross-talk between host’s miRNAs in regulating gene function in bacteria, fungi, viruses, insects, and nematodes, and vice-versa during host-pathogen interaction and their potential implications in crop protection. Moreover, cross-kingdom movement during symbiotic interaction, the emerging role of plant’s miRNAs in modulating animal’s gene function, and feasibility of spray-induced gene silencing (SIGS) in combating biotic stresses in plants are also critically evaluated. The current review article analysed the horizontal transfer of miRNAs among plants, animals, and microbes that regulates gene expression in the host or pathogenic organisms, contributing to crop protection. Further, it highlighted the challenges and opportunities to harness the full potential of this emerging approach to mitigate biotic stress efficiently.
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title_short	Recent advances and potential applications of cross-kingdom movement of miRNAs in modulating plant’s disease response
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