Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus

Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus

RNA silencing is an important innate antiviral defense in plants. Soil-borne plant viruses naturally infect roots via soil-inhabiting vectors, but it is unclear how antiviral RNA silencing responds to virus infection in this particular tissue. In this study, viral small interfering RNA (siRNA) profi...

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Main Authors: Linying Li, Ida Bagus Andika, Yu Xu, Yan Zhang, Xiangqi Xin, Lifeng Hu, Zongtao Sun, Gaojie Hong, Yang Chen, Fei Yan, Jian Yang, Junmin Li, Jianping Chen
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-09-01
Series:Frontiers in Microbiology
Subjects:
soil-borne plant viruses
wheat yellow mosaic virus
viral small interfering RNA
antiviral RNA silencing
deep sequencing
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2017.01802/full
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language English
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author Linying Li
Linying Li
Linying Li
Ida Bagus Andika
Yu Xu
Yu Xu
Yan Zhang
Yan Zhang
Xiangqi Xin
Lifeng Hu
Lifeng Hu
Zongtao Sun
Zongtao Sun
Gaojie Hong
Gaojie Hong
Yang Chen
Yang Chen
Fei Yan
Fei Yan
Jian Yang
Jian Yang
Junmin Li
Junmin Li
Junmin Li
Jianping Chen
Jianping Chen
Jianping Chen
spellingShingle Linying Li
Linying Li
Linying Li
Ida Bagus Andika
Yu Xu
Yu Xu
Yan Zhang
Yan Zhang
Xiangqi Xin
Lifeng Hu
Lifeng Hu
Zongtao Sun
Zongtao Sun
Gaojie Hong
Gaojie Hong
Yang Chen
Yang Chen
Fei Yan
Fei Yan
Jian Yang
Jian Yang
Junmin Li
Junmin Li
Junmin Li
Jianping Chen
Jianping Chen
Jianping Chen
Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus
Frontiers in Microbiology
soil-borne plant viruses
wheat yellow mosaic virus
viral small interfering RNA
antiviral RNA silencing
deep sequencing
author_facet Linying Li
Linying Li
Linying Li
Ida Bagus Andika
Yu Xu
Yu Xu
Yan Zhang
Yan Zhang
Xiangqi Xin
Lifeng Hu
Lifeng Hu
Zongtao Sun
Zongtao Sun
Gaojie Hong
Gaojie Hong
Yang Chen
Yang Chen
Fei Yan
Fei Yan
Jian Yang
Jian Yang
Junmin Li
Junmin Li
Junmin Li
Jianping Chen
Jianping Chen
Jianping Chen
author_sort Linying Li
title Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus
title_short Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus
title_full Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus
title_fullStr Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus
title_full_unstemmed Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne Virus
title_sort differential characteristics of viral sirnas between leaves and roots of wheat plants naturally infected with wheat yellow mosaic virus, a soil-borne virus
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2017-09-01
description RNA silencing is an important innate antiviral defense in plants. Soil-borne plant viruses naturally infect roots via soil-inhabiting vectors, but it is unclear how antiviral RNA silencing responds to virus infection in this particular tissue. In this study, viral small interfering RNA (siRNA) profiles from leaves and roots of wheat plants naturally infected with a soil-borne virus, wheat yellow mosaic virus (WYMV, genus Bymovirus), were analyzed by deep sequencing. WYMV siRNAs were much more abundant in roots than leaves, which was positively correlated with the accumulation of viral RNA. WYMV siRNAs in leaves and roots were predominantly 21- and 22-nt long and equally derived from the positive- and negative-strands of the viral genome. WYMV siRNAs from leaves and roots differed in distribution pattern along the viral genome. Interestingly, compared to siRNAs from leaves (and most other reports), those from roots obviously had a lower A/U bias at the 5′-terminal nucleotide. Moreover, the expression of Dicer-like genes upon WYMV infection were differently regulated between leaves and roots. Our data suggest that RNA silencing in roots may operate differently than in leaves against soil-borne virus invasion.
topic soil-borne plant viruses
wheat yellow mosaic virus
viral small interfering RNA
antiviral RNA silencing
deep sequencing
url https://www.frontiersin.org/article/10.3389/fmicb.2017.01802/full
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spelling doaj-8f6de4431aa143b68361657c5b55f7432020-11-25T00:55:58ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2017-09-01810.3389/fmicb.2017.01802284468Differential Characteristics of Viral siRNAs between Leaves and Roots of Wheat Plants Naturally Infected with Wheat Yellow Mosaic Virus, a Soil-Borne VirusLinying Li0Linying Li1Linying Li2Ida Bagus Andika3Yu Xu4Yu Xu5Yan Zhang6Yan Zhang7Xiangqi Xin8Lifeng Hu9Lifeng Hu10Zongtao Sun11Zongtao Sun12Gaojie Hong13Gaojie Hong14Yang Chen15Yang Chen16Fei Yan17Fei Yan18Jian Yang19Jian Yang20Junmin Li21Junmin Li22Junmin Li23Jianping Chen24Jianping Chen25Jianping Chen26College of Plant Protection, Nanjing Agricultural UniversityNanjing, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaGroup of Plant-Microbe Interactions, Institute of Plant Science and Resources, Okayama UniversityKurashiki, JapanThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaInstitute of Plant Protection, Shandong Academy of Agricultural SciencesJinan, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaCollege of Plant Protection, Nanjing Agricultural UniversityNanjing, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaCollege of Plant Protection, Nanjing Agricultural UniversityNanjing, ChinaThe State Key Laboratory Breeding Base for Sustainable Control of Pest and Disease, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaKey Laboratory of Biotechnology in Plant Protection of Ministry of Agriculture of China and Zhejiang Province, Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural SciencesHangzhou, ChinaRNA silencing is an important innate antiviral defense in plants. Soil-borne plant viruses naturally infect roots via soil-inhabiting vectors, but it is unclear how antiviral RNA silencing responds to virus infection in this particular tissue. In this study, viral small interfering RNA (siRNA) profiles from leaves and roots of wheat plants naturally infected with a soil-borne virus, wheat yellow mosaic virus (WYMV, genus Bymovirus), were analyzed by deep sequencing. WYMV siRNAs were much more abundant in roots than leaves, which was positively correlated with the accumulation of viral RNA. WYMV siRNAs in leaves and roots were predominantly 21- and 22-nt long and equally derived from the positive- and negative-strands of the viral genome. WYMV siRNAs from leaves and roots differed in distribution pattern along the viral genome. Interestingly, compared to siRNAs from leaves (and most other reports), those from roots obviously had a lower A/U bias at the 5′-terminal nucleotide. Moreover, the expression of Dicer-like genes upon WYMV infection were differently regulated between leaves and roots. Our data suggest that RNA silencing in roots may operate differently than in leaves against soil-borne virus invasion.https://www.frontiersin.org/article/10.3389/fmicb.2017.01802/fullsoil-borne plant viruseswheat yellow mosaic virusviral small interfering RNAantiviral RNA silencingdeep sequencing

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