Time-Course Small RNA Profiling Reveals Rice miRNAs and Their Target Genes in Response to Rice Stripe Virus Infection

It has been known that many microRNAs (miRNAs) are involved in the regulation for the plant development and defense mechanism by regulating the expression of the target gene. Several previous studies has demonstrated functional roles of miRNAs in antiviral defense mechanisms. In this study, we emplo...

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Published in	PloS one Vol. 11; no. 9; p. e0162319
Main Authors	Lian, Sen, Cho, Won Kyong, Kim, Sang-Min, Choi, Hoseong, Kim, Kook-Hyung
Format	Journal Article
Language	English
Published	United States Public Library of Science 14.09.2016 Public Library of Science (PLoS)
Subjects	Agricultural biotechnology Agriculture Analysis Arabidopsis Biology and life sciences Crop diseases Defense mechanisms Epidemics Gene expression Gene sequencing Genes Genes, Plant Genomes Genomics Health aspects Infection Infections Life sciences MicroRNA MicroRNAs MicroRNAs - genetics miRNA NBS-LRR gene Next-generation sequencing Oryza Oryza - genetics Oryza sativa Plant Diseases - genetics Plant Viruses - genetics Research and Analysis Methods Ribonucleic acid Rice Rice stripe virus RNA RNA sequencing RNA, Viral - genetics Studies Viruses
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Abstract	It has been known that many microRNAs (miRNAs) are involved in the regulation for the plant development and defense mechanism by regulating the expression of the target gene. Several previous studies has demonstrated functional roles of miRNAs in antiviral defense mechanisms. In this study, we employed high-throughput sequencing technology to identify rice miRNAs upon rice stripe virus (RSV) infection at three different time points. Six libraries from mock and RSV-infected samples were subjected for small RNA sequencing. Bioinformatic analyses revealed 374 known miRNAs and 19 novel miRNAs. Expression of most identified miRNAs was not dramatically changed at 3 days post infection (dpi) and 7 dpi by RSV infection. However, many numbers of miRNAs were up-regulated in mock and RSV-infected samples at 15 dpi by RSV infection. Moreover, expression profiles of identified miRNAs revealed that only few numbers of miRNAs were strongly regulated by RSV infection. In addition, 15 resistance genes were targets of six miRNAs suggesting that those identified miRNAs and 15 NBS-LRR resistance genes might be involved in RSV infection. Taken together, our results provide novel insight into the dynamic expression profiles of rice miRNAs upon RSV infection and clues for the understanding of the regulatory roles of miRNAs via time-course.
AbstractList	It has been known that many microRNAs (miRNAs) are involved in the regulation for the plant development and defense mechanism by regulating the expression of the target gene. Several previous studies has demonstrated functional roles of miRNAs in antiviral defense mechanisms. In this study, we employed high-throughput sequencing technology to identify rice miRNAs upon rice stripe virus (RSV) infection at three different time points. Six libraries from mock and RSV-infected samples were subjected for small RNA sequencing. Bioinformatic analyses revealed 374 known miRNAs and 19 novel miRNAs. Expression of most identified miRNAs was not dramatically changed at 3 days post infection (dpi) and 7 dpi by RSV infection. However, many numbers of miRNAs were up-regulated in mock and RSV-infected samples at 15 dpi by RSV infection. Moreover, expression profiles of identified miRNAs revealed that only few numbers of miRNAs were strongly regulated by RSV infection. In addition, 15 resistance genes were targets of six miRNAs suggesting that those identified miRNAs and 15 NBS-LRR resistance genes might be involved in RSV infection. Taken together, our results provide novel insight into the dynamic expression profiles of rice miRNAs upon RSV infection and clues for the understanding of the regulatory roles of miRNAs via time-course. It has been known that many microRNAs (miRNAs) are involved in the regulation for the plant development and defense mechanism by regulating the expression of the target gene. Several previous studies has demonstrated functional roles of miRNAs in antiviral defense mechanisms. In this study, we employed high-throughput sequencing technology to identify rice miRNAs upon rice stripe virus (RSV) infection at three different time points. Six libraries from mock and RSV-infected samples were subjected for small RNA sequencing. Bioinformatic analyses revealed 374 known miRNAs and 19 novel miRNAs. Expression of most identified miRNAs was not dramatically changed at 3 days post infection (dpi) and 7 dpi by RSV infection. However, many numbers of miRNAs were up-regulated in mock and RSV-infected samples at 15 dpi by RSV infection. Moreover, expression profiles of identified miRNAs revealed that only few numbers of miRNAs were strongly regulated by RSV infection. In addition, 15 resistance genes were targets of six miRNAs suggesting that those identified miRNAs and 15 NBS-LRR resistance genes might be involved in RSV infection. Taken together, our results provide novel insight into the dynamic expression profiles of rice miRNAs upon RSV infection and clues for the understanding of the regulatory roles of miRNAs via time-course.It has been known that many microRNAs (miRNAs) are involved in the regulation for the plant development and defense mechanism by regulating the expression of the target gene. Several previous studies has demonstrated functional roles of miRNAs in antiviral defense mechanisms. In this study, we employed high-throughput sequencing technology to identify rice miRNAs upon rice stripe virus (RSV) infection at three different time points. Six libraries from mock and RSV-infected samples were subjected for small RNA sequencing. Bioinformatic analyses revealed 374 known miRNAs and 19 novel miRNAs. Expression of most identified miRNAs was not dramatically changed at 3 days post infection (dpi) and 7 dpi by RSV infection. However, many numbers of miRNAs were up-regulated in mock and RSV-infected samples at 15 dpi by RSV infection. Moreover, expression profiles of identified miRNAs revealed that only few numbers of miRNAs were strongly regulated by RSV infection. In addition, 15 resistance genes were targets of six miRNAs suggesting that those identified miRNAs and 15 NBS-LRR resistance genes might be involved in RSV infection. Taken together, our results provide novel insight into the dynamic expression profiles of rice miRNAs upon RSV infection and clues for the understanding of the regulatory roles of miRNAs via time-course.
Audience	Academic
Author	Cho, Won Kyong Choi, Hoseong Kim, Kook-Hyung Kim, Sang-Min Lian, Sen
AuthorAffiliation	National University of Singapore, SINGAPORE 1 College of Crop Protection and Agronomy, Qingdao Agricultural University, Qingdao, Shandong, 266109, China 2 Department of Agricultural Biotechnology, Research Institute of Agriculture and Life Sciences, and Plant Genomics and Breeding Institute, College of Agriculture and Life Sciences, Seoul National University, Seoul, 08826, Republic of Korea 3 Crop Foundation Research Division, National Institute of Crop Science, Rural Development Administration, Wanju, 55365, Republic of Korea
AuthorAffiliation_xml	– name: 2 Department of Agricultural Biotechnology, Research Institute of Agriculture and Life Sciences, and Plant Genomics and Breeding Institute, College of Agriculture and Life Sciences, Seoul National University, Seoul, 08826, Republic of Korea – name: National University of Singapore, SINGAPORE – name: 1 College of Crop Protection and Agronomy, Qingdao Agricultural University, Qingdao, Shandong, 266109, China – name: 3 Crop Foundation Research Division, National Institute of Crop Science, Rural Development Administration, Wanju, 55365, Republic of Korea
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Copyright	COPYRIGHT 2016 Public Library of Science 2016 Lian et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2016 Lian et al 2016 Lian et al
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DocumentTitleAlternate	Time-Course Small RNA Profiling upon Rice Stripe Virus Infection
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 ObjectType-Undefined-3 Conceptualization: SL WKC SMK KHK. Formal analysis: SL WKC. Investigation: SL SMK HC. Methodology: SL WKC SMK KHK. Validation: SL WKC SMK KHK. Writing – original draft: SL WKC SMK KHK. Competing Interests: The authors have declared that no competing interests exist.
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SubjectTerms	Agricultural biotechnology Agriculture Analysis Arabidopsis Biology and life sciences Crop diseases Defense mechanisms Epidemics Gene expression Gene sequencing Genes Genes, Plant Genomes Genomics Health aspects Infection Infections Life sciences MicroRNA MicroRNAs MicroRNAs - genetics miRNA NBS-LRR gene Next-generation sequencing Oryza Oryza - genetics Oryza sativa Plant Diseases - genetics Plant Viruses - genetics Research and Analysis Methods Ribonucleic acid Rice Rice stripe virus RNA RNA sequencing RNA, Viral - genetics Studies Viruses
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Title	Time-Course Small RNA Profiling Reveals Rice miRNAs and Their Target Genes in Response to Rice Stripe Virus Infection
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