Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24

Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24

The functional diversity of plant valine-qlutamine (VQ) proteins is closely associated with their partners WRKY transcription factors, and also with a complex network of signaling pathways that mediated by hormone molecules. We reported genome-wide expression profiles of differentially expressed ric...

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Main Authors: Peng Xixu, Xiao Ting, Meng Jiao, Tao Zong, Zhou Dinggang, Tang Xinke, Wang Haihua
Format: Article
Language:English
Published: Elsevier 2020-01-01
Series:Rice Science
Online Access:http://www.sciencedirect.com/science/article/pii/S1672630819301064
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spelling doaj-b6bb8b2185b34d8f9e75d0141033537b2020-11-25T01:20:00ZengElsevierRice Science1672-63082020-01-012711020Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24Peng Xixu0Xiao Ting1Meng Jiao2Tao Zong3Zhou Dinggang4Tang Xinke5Wang Haihua6School of Life Science, Hunan University of Science and Technology, Xiangtan 411201, China; Key Laboratory of Integrated Management of the Pests and Diseases on Horticultural Crops in Hunan Province, Xiangtan 411201, China; Key Laboratory of Ecological Remediation and Safe Utilization of Heavy Metal-Polluted Soils, College of Hunan Province, Xiangtan 411201, ChinaSchool of Life Science, Hunan University of Science and Technology, Xiangtan 411201, ChinaSchool of Life Science, Hunan University of Science and Technology, Xiangtan 411201, ChinaSchool of Life Science, Hunan University of Science and Technology, Xiangtan 411201, ChinaSchool of Life Science, Hunan University of Science and Technology, Xiangtan 411201, China; Key Laboratory of Integrated Management of the Pests and Diseases on Horticultural Crops in Hunan Province, Xiangtan 411201, ChinaSchool of Life Science, Hunan University of Science and Technology, Xiangtan 411201, China; Key Laboratory of Ecological Remediation and Safe Utilization of Heavy Metal-Polluted Soils, College of Hunan Province, Xiangtan 411201, ChinaSchool of Life Science, Hunan University of Science and Technology, Xiangtan 411201, China; Key Laboratory of Integrated Management of the Pests and Diseases on Horticultural Crops in Hunan Province, Xiangtan 411201, China; Key Laboratory of Ecological Remediation and Safe Utilization of Heavy Metal-Polluted Soils, College of Hunan Province, Xiangtan 411201, China; Corresponding author.The functional diversity of plant valine-qlutamine (VQ) proteins is closely associated with their partners WRKY transcription factors, and also with a complex network of signaling pathways that mediated by hormone molecules. We reported genome-wide expression profiles of differentially expressed rice VQ genes under nitric oxide (NO) treatment based on a microarray analysis. Cluster analysis of expression patterns revealed that some VQ genes and WRKY genes shared similar expression trends. Prediction of cis-elements showed that W-box or W-box-like sequences were overrepresented within the promoters of most of NO-responsive VQ genes. In particular, the similarly expressed OsVQ7 and OsWRKY24 showed great induction upon NO triggering. Transient expression assay and chromatin immunoprecipitation analysis demonstrated that OsWRKY24 was specifically bound to the promoter regions of OsVQ7 and OsWRKY24 itself, which contain multiple copies of W-box or W-box-like cis-elements. Yeast-two-hybrid assay indicated that OsWRKY24 can interact physically with OsVQ7 through the C-terminal of WRKY domain. The results suggested that OsVQ7 and OsWRKY24 may form an auto- and cross-regulation circuit that is required for tight regulation and fine-tuning of physiological processes they are involved in. These findings provided a solid foundation for exploring the specific functions of the VQ protein family in NO signaling pathway. Keywords: Rice, Valine-qlutamine protein, Expression profile, WRKY transcription factor, Nitric oxide, Regulatory circuithttp://www.sciencedirect.com/science/article/pii/S1672630819301064
collection DOAJ
language English
format Article
sources DOAJ
author Peng Xixu
Xiao Ting
Meng Jiao
Tao Zong
Zhou Dinggang
Tang Xinke
Wang Haihua
spellingShingle Peng Xixu
Xiao Ting
Meng Jiao
Tao Zong
Zhou Dinggang
Tang Xinke
Wang Haihua
Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24
Rice Science
author_facet Peng Xixu
Xiao Ting
Meng Jiao
Tao Zong
Zhou Dinggang
Tang Xinke
Wang Haihua
author_sort Peng Xixu
title Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24
title_short Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24
title_full Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24
title_fullStr Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24
title_full_unstemmed Differential Expression of Rice Valine-Qlutamine Gene Family in Response to Nitric Oxide and Regulatory Circuit of OsVQ7 and OsWRKY24
title_sort differential expression of rice valine-qlutamine gene family in response to nitric oxide and regulatory circuit of osvq7 and oswrky24
publisher Elsevier
series Rice Science
issn 1672-6308
publishDate 2020-01-01
description The functional diversity of plant valine-qlutamine (VQ) proteins is closely associated with their partners WRKY transcription factors, and also with a complex network of signaling pathways that mediated by hormone molecules. We reported genome-wide expression profiles of differentially expressed rice VQ genes under nitric oxide (NO) treatment based on a microarray analysis. Cluster analysis of expression patterns revealed that some VQ genes and WRKY genes shared similar expression trends. Prediction of cis-elements showed that W-box or W-box-like sequences were overrepresented within the promoters of most of NO-responsive VQ genes. In particular, the similarly expressed OsVQ7 and OsWRKY24 showed great induction upon NO triggering. Transient expression assay and chromatin immunoprecipitation analysis demonstrated that OsWRKY24 was specifically bound to the promoter regions of OsVQ7 and OsWRKY24 itself, which contain multiple copies of W-box or W-box-like cis-elements. Yeast-two-hybrid assay indicated that OsWRKY24 can interact physically with OsVQ7 through the C-terminal of WRKY domain. The results suggested that OsVQ7 and OsWRKY24 may form an auto- and cross-regulation circuit that is required for tight regulation and fine-tuning of physiological processes they are involved in. These findings provided a solid foundation for exploring the specific functions of the VQ protein family in NO signaling pathway. Keywords: Rice, Valine-qlutamine protein, Expression profile, WRKY transcription factor, Nitric oxide, Regulatory circuit
url http://www.sciencedirect.com/science/article/pii/S1672630819301064
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AT xiaoting differentialexpressionofricevalineqlutaminegenefamilyinresponsetonitricoxideandregulatorycircuitofosvq7andoswrky24
AT mengjiao differentialexpressionofricevalineqlutaminegenefamilyinresponsetonitricoxideandregulatorycircuitofosvq7andoswrky24
AT taozong differentialexpressionofricevalineqlutaminegenefamilyinresponsetonitricoxideandregulatorycircuitofosvq7andoswrky24
AT zhoudinggang differentialexpressionofricevalineqlutaminegenefamilyinresponsetonitricoxideandregulatorycircuitofosvq7andoswrky24
AT tangxinke differentialexpressionofricevalineqlutaminegenefamilyinresponsetonitricoxideandregulatorycircuitofosvq7andoswrky24
AT wanghaihua differentialexpressionofricevalineqlutaminegenefamilyinresponsetonitricoxideandregulatorycircuitofosvq7andoswrky24
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