Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus

Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus

Tomato chlorosis virus (ToCV), is one of the most devastating cultivated tomato viruses, seriously threatened the growth of crops worldwide. As the vector of ToCV, the whitefly Bemisia tabaci Mediterranean (MED) is mainly responsible for the rapid spread of ToCV. The current understanding of tomato...

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Main Authors: Hao Yue, Li-Ping Huang, Ding-Yi-Hui Lu, Zhan-Hong Zhang, Zhuo Zhang, De-Yong Zhang, Li-Min Zheng, Yang Gao, Xin-Qiu Tan, Xu-Guo Zhou, Xiao-Bin Shi, Yong Liu
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-06-01
Series:Frontiers in Microbiology
Subjects:
Solanum lycopersicum
Tomato chlorosis virus
Bemisia tabaci
Transcriptome
MicroRNA
Online Access:https://www.frontiersin.org/articles/10.3389/fmicb.2021.693574/full
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spelling doaj-216c3eae3e2f42c09d8aff4ed40f4bf12021-06-22T06:19:07ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2021-06-011210.3389/fmicb.2021.693574693574Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virusHao Yue0Hao Yue1Li-Ping Huang2Li-Ping Huang3Ding-Yi-Hui Lu4Ding-Yi-Hui Lu5Zhan-Hong Zhang6Zhuo Zhang7De-Yong Zhang8Li-Min Zheng9Yang Gao10Xin-Qiu Tan11Xu-Guo Zhou12Xiao-Bin Shi13Xiao-Bin Shi14Yong Liu15Yong Liu16Subcollege of Longping, Graduate School of Hunan University, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaSubcollege of Longping, Graduate School of Hunan University, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaSubcollege of Longping, Graduate School of Hunan University, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaInstitute of Vegetable, Hunan Academy of Agricultural Sciences, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaDepartment of Entomology, University of Kentucky, Lexington, KY, United StatesSubcollege of Longping, Graduate School of Hunan University, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaSubcollege of Longping, Graduate School of Hunan University, Changsha, ChinaHunan Academy of Agricultural Sciences, Institute of Plant Protection, Changsha, ChinaTomato chlorosis virus (ToCV), is one of the most devastating cultivated tomato viruses, seriously threatened the growth of crops worldwide. As the vector of ToCV, the whitefly Bemisia tabaci Mediterranean (MED) is mainly responsible for the rapid spread of ToCV. The current understanding of tomato plant responses to this virus and B. tabaci is very limited. To understand the molecular mechanism of the interaction between tomato, ToCV and B. tabaci, we adopted a next-generation sequencing approach to decipher miRNAs and mRNAs that are differentially expressed under the infection of B. tabaci and ToCV in tomato plants. Our data revealed that 6199 mRNAs were significantly regulated, and the differentially expressed genes were most significantly associated with the plant-pathogen interaction, the MAPK signaling pathway, the glyoxylate, and the carbon fixation in photosynthetic organisms and photosynthesis related proteins. Concomitantly, 242 differentially expressed miRNAs were detected, including novel putative miRNAs. Sly-miR159, sly-miR9471b-3p, and sly-miR162 were the most expressed miRNAs in each sample compare to control group. Moreover, we compared the similarities and differences of gene expression in tomato plant caused by infection or co-infection of B. tabaci and ToCV. Taken together, the analysis reported in this article lays a solid foundation for further research on the interaction between tomato, ToCV and B. tabaci, and provide evidence for the identification of potential key genes that influences virus transmission in tomato plants.https://www.frontiersin.org/articles/10.3389/fmicb.2021.693574/fullSolanum lycopersicumTomato chlorosis virusBemisia tabaciTranscriptomeMicroRNA
collection DOAJ
language English
format Article
sources DOAJ
author Hao Yue
Hao Yue
Li-Ping Huang
Li-Ping Huang
Ding-Yi-Hui Lu
Ding-Yi-Hui Lu
Zhan-Hong Zhang
Zhuo Zhang
De-Yong Zhang
Li-Min Zheng
Yang Gao
Xin-Qiu Tan
Xu-Guo Zhou
Xiao-Bin Shi
Xiao-Bin Shi
Yong Liu
Yong Liu
spellingShingle Hao Yue
Hao Yue
Li-Ping Huang
Li-Ping Huang
Ding-Yi-Hui Lu
Ding-Yi-Hui Lu
Zhan-Hong Zhang
Zhuo Zhang
De-Yong Zhang
Li-Min Zheng
Yang Gao
Xin-Qiu Tan
Xu-Guo Zhou
Xiao-Bin Shi
Xiao-Bin Shi
Yong Liu
Yong Liu
Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus
Frontiers in Microbiology
Solanum lycopersicum
Tomato chlorosis virus
Bemisia tabaci
Transcriptome
MicroRNA
author_facet Hao Yue
Hao Yue
Li-Ping Huang
Li-Ping Huang
Ding-Yi-Hui Lu
Ding-Yi-Hui Lu
Zhan-Hong Zhang
Zhuo Zhang
De-Yong Zhang
Li-Min Zheng
Yang Gao
Xin-Qiu Tan
Xu-Guo Zhou
Xiao-Bin Shi
Xiao-Bin Shi
Yong Liu
Yong Liu
author_sort Hao Yue
title Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus
title_short Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus
title_full Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus
title_fullStr Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus
title_full_unstemmed Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus
title_sort integrated analysis of microrna and mrna transcriptome reveals the molecular mechanism of solanum lycopersicum response to bemisia tabaci and tomato chlorosis virus
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2021-06-01
description Tomato chlorosis virus (ToCV), is one of the most devastating cultivated tomato viruses, seriously threatened the growth of crops worldwide. As the vector of ToCV, the whitefly Bemisia tabaci Mediterranean (MED) is mainly responsible for the rapid spread of ToCV. The current understanding of tomato plant responses to this virus and B. tabaci is very limited. To understand the molecular mechanism of the interaction between tomato, ToCV and B. tabaci, we adopted a next-generation sequencing approach to decipher miRNAs and mRNAs that are differentially expressed under the infection of B. tabaci and ToCV in tomato plants. Our data revealed that 6199 mRNAs were significantly regulated, and the differentially expressed genes were most significantly associated with the plant-pathogen interaction, the MAPK signaling pathway, the glyoxylate, and the carbon fixation in photosynthetic organisms and photosynthesis related proteins. Concomitantly, 242 differentially expressed miRNAs were detected, including novel putative miRNAs. Sly-miR159, sly-miR9471b-3p, and sly-miR162 were the most expressed miRNAs in each sample compare to control group. Moreover, we compared the similarities and differences of gene expression in tomato plant caused by infection or co-infection of B. tabaci and ToCV. Taken together, the analysis reported in this article lays a solid foundation for further research on the interaction between tomato, ToCV and B. tabaci, and provide evidence for the identification of potential key genes that influences virus transmission in tomato plants.
topic Solanum lycopersicum
Tomato chlorosis virus
Bemisia tabaci
Transcriptome
MicroRNA
url https://www.frontiersin.org/articles/10.3389/fmicb.2021.693574/full
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