IbBBX24 Promotes the Jasmonic Acid Pathway and Enhances Fusarium Wilt Resistance in Sweet Potato

Cultivated sweet potato ( ) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription factor IbBBX24 regulates the jasmonic acid (JA) pathway in sweet potato. When was overexpressed in sweet potato, JA accumulation increased, whe...

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Published inThe Plant cell Vol. 32; no. 4; pp. 1102 - 1123
Main Authors Zhang, Huan, Zhang, Qian, Zhai, Hong, Gao, Shaopei, Yang, Li, Wang, Zhen, Xu, Yuetong, Huo, Jinxi, Ren, Zhitong, Zhao, Ning, Wang, Xiangfeng, Li, Jigang, Liu, Qingchang, He, Shaozhen
Format Journal Article
LanguageEnglish
Published England American Society of Plant Biologists 01.04.2020
Subjects
Acetates - pharmacology
Base Sequence
Cyclopentanes - metabolism
Cyclopentanes - pharmacology
Disease Resistance
DNA, Plant - metabolism
Fusarium - physiology
Gene Expression Regulation, Plant - drug effects
Genome, Plant
Ipomoea batatas - genetics
Ipomoea batatas - growth & development
Ipomoea batatas - immunology
Ipomoea batatas - microbiology
Models, Biological
Nicotiana - genetics
Nicotiana - microbiology
Oxylipins - metabolism
Oxylipins - pharmacology
Plant Diseases - microbiology
Plant Proteins - metabolism
Plants, Genetically Modified
Promoter Regions, Genetic - genetics
Protein Binding - drug effects
Transcription, Genetic - drug effects
Online AccessGet full text
ISSN1040-4651
1532-298X
1532-298X
DOI10.1105/tpc.19.00641

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Abstract Cultivated sweet potato ( ) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription factor IbBBX24 regulates the jasmonic acid (JA) pathway in sweet potato. When was overexpressed in sweet potato, JA accumulation increased, whereas silencing this gene decreased JA levels. RNA sequencing analysis revealed that IbBBX24 modulates the expression of genes involved in the JA pathway. IbBBX24 regulates JA responses by antagonizing the JA signaling repressor IbJAZ10, which relieves IbJAZ10's repression of IbMYC2, a JA signaling activator. IbBBX24 binds to the promoter and activates its transcription, whereas it represses the transcription of The interaction between IbBBX24 and IbJAZ10 interferes with IbJAZ10's repression of IbMYC2, thereby promoting the transcriptional activity of IbMYC2. Overexpressing significantly increased Fusarium wilt disease resistance, suggesting that JA responses play a crucial role in regulating Fusarium wilt resistance in sweet potato. Finally, overexpressing led to increased yields in sweet potato. Together, our findings indicate that IbBBX24 plays a pivotal role in regulating JA biosynthesis and signaling and increasing Fusarium wilt resistance and yield in sweet potato, thus providing a candidate gene for developing elite crop varieties with enhanced pathogen resistance but without yield penalty.
AbstractList BBX24 regulates the jasmonic acid pathway, Fusarium wilt resistance, and storage root yield in sweet potato, providing a candidate target gene for enhancing pathogen resistance without yield penalty. Cultivated sweet potato ( Ipomoea batatas ) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription factor IbBBX24 regulates the jasmonic acid (JA) pathway in sweet potato. When IbBBX24 was overexpressed in sweet potato, JA accumulation increased, whereas silencing this gene decreased JA levels. RNA sequencing analysis revealed that IbBBX24 modulates the expression of genes involved in the JA pathway. IbBBX24 regulates JA responses by antagonizing the JA signaling repressor IbJAZ10, which relieves IbJAZ10’s repression of IbMYC2, a JA signaling activator. IbBBX24 binds to the IbJAZ10 promoter and activates its transcription, whereas it represses the transcription of IbMYC2 . The interaction between IbBBX24 and IbJAZ10 interferes with IbJAZ10’s repression of IbMYC2, thereby promoting the transcriptional activity of IbMYC2. Overexpressing IbBBX24 significantly increased Fusarium wilt disease resistance, suggesting that JA responses play a crucial role in regulating Fusarium wilt resistance in sweet potato. Finally, overexpressing IbBBX24 led to increased yields in sweet potato. Together, our findings indicate that IbBBX24 plays a pivotal role in regulating JA biosynthesis and signaling and increasing Fusarium wilt resistance and yield in sweet potato, thus providing a candidate gene for developing elite crop varieties with enhanced pathogen resistance but without yield penalty.
Cultivated sweet potato ( ) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription factor IbBBX24 regulates the jasmonic acid (JA) pathway in sweet potato. When was overexpressed in sweet potato, JA accumulation increased, whereas silencing this gene decreased JA levels. RNA sequencing analysis revealed that IbBBX24 modulates the expression of genes involved in the JA pathway. IbBBX24 regulates JA responses by antagonizing the JA signaling repressor IbJAZ10, which relieves IbJAZ10's repression of IbMYC2, a JA signaling activator. IbBBX24 binds to the promoter and activates its transcription, whereas it represses the transcription of The interaction between IbBBX24 and IbJAZ10 interferes with IbJAZ10's repression of IbMYC2, thereby promoting the transcriptional activity of IbMYC2. Overexpressing significantly increased Fusarium wilt disease resistance, suggesting that JA responses play a crucial role in regulating Fusarium wilt resistance in sweet potato. Finally, overexpressing led to increased yields in sweet potato. Together, our findings indicate that IbBBX24 plays a pivotal role in regulating JA biosynthesis and signaling and increasing Fusarium wilt resistance and yield in sweet potato, thus providing a candidate gene for developing elite crop varieties with enhanced pathogen resistance but without yield penalty.
Cultivated sweet potato (Ipomoea batatas) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription factor IbBBX24 regulates the jasmonic acid (JA) pathway in sweet potato. When IbBBX24 was overexpressed in sweet potato, JA accumulation increased, whereas silencing this gene decreased JA levels. RNA sequencing analysis revealed that IbBBX24 modulates the expression of genes involved in the JA pathway. IbBBX24 regulates JA responses by antagonizing the JA signaling repressor IbJAZ10, which relieves IbJAZ10's repression of IbMYC2, a JA signaling activator. IbBBX24 binds to the IbJAZ10 promoter and activates its transcription, whereas it represses the transcription of IbMYC2 The interaction between IbBBX24 and IbJAZ10 interferes with IbJAZ10's repression of IbMYC2, thereby promoting the transcriptional activity of IbMYC2. Overexpressing IbBBX24 significantly increased Fusarium wilt disease resistance, suggesting that JA responses play a crucial role in regulating Fusarium wilt resistance in sweet potato. Finally, overexpressing IbBBX24 led to increased yields in sweet potato. Together, our findings indicate that IbBBX24 plays a pivotal role in regulating JA biosynthesis and signaling and increasing Fusarium wilt resistance and yield in sweet potato, thus providing a candidate gene for developing elite crop varieties with enhanced pathogen resistance but without yield penalty.Cultivated sweet potato (Ipomoea batatas) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription factor IbBBX24 regulates the jasmonic acid (JA) pathway in sweet potato. When IbBBX24 was overexpressed in sweet potato, JA accumulation increased, whereas silencing this gene decreased JA levels. RNA sequencing analysis revealed that IbBBX24 modulates the expression of genes involved in the JA pathway. IbBBX24 regulates JA responses by antagonizing the JA signaling repressor IbJAZ10, which relieves IbJAZ10's repression of IbMYC2, a JA signaling activator. IbBBX24 binds to the IbJAZ10 promoter and activates its transcription, whereas it represses the transcription of IbMYC2 The interaction between IbBBX24 and IbJAZ10 interferes with IbJAZ10's repression of IbMYC2, thereby promoting the transcriptional activity of IbMYC2. Overexpressing IbBBX24 significantly increased Fusarium wilt disease resistance, suggesting that JA responses play a crucial role in regulating Fusarium wilt resistance in sweet potato. Finally, overexpressing IbBBX24 led to increased yields in sweet potato. Together, our findings indicate that IbBBX24 plays a pivotal role in regulating JA biosynthesis and signaling and increasing Fusarium wilt resistance and yield in sweet potato, thus providing a candidate gene for developing elite crop varieties with enhanced pathogen resistance but without yield penalty.
Author Liu, Qingchang
Xu, Yuetong
Zhao, Ning
Wang, Xiangfeng
Wang, Zhen
Yang, Li
Huo, Jinxi
He, Shaozhen
Zhang, Qian
Zhang, Huan
Zhai, Hong
Li, Jigang
Gao, Shaopei
Ren, Zhitong
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Copyright 2020 American Society of Plant Biologists. All rights reserved.
2020 American Society of Plant Biologists. All rights reserved. 2020
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The authors responsible for the distribution of materials integral to the findings presented in this article in accordance with the policy described in the Instructions for Authors (www.plantcell.org) are Shaozhen He (sunnynba@cau.edu.cn) and Qingchang Liu (liuqc@cau.edu.cn).
www.plantcell.org/cgi/doi/10.1105/tpc.19.00641
These authors contributed equally to this work.
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  year: 2020
  text: 2020-04-01
  day: 01
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PublicationTitle The Plant cell
PublicationTitleAlternate Plant Cell
PublicationYear 2020
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Snippet Cultivated sweet potato ( ) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family transcription...
Cultivated sweet potato (Ipomoea batatas) is an important source of food for both humans and domesticated animals. Here, we show that the B-box (BBX) family...
BBX24 regulates the jasmonic acid pathway, Fusarium wilt resistance, and storage root yield in sweet potato, providing a candidate target gene for enhancing...
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StartPage 1102
SubjectTerms Acetates - pharmacology
Base Sequence
Cyclopentanes - metabolism
Cyclopentanes - pharmacology
Disease Resistance
DNA, Plant - metabolism
Fusarium - physiology
Gene Expression Regulation, Plant - drug effects
Genome, Plant
Ipomoea batatas - genetics
Ipomoea batatas - growth & development
Ipomoea batatas - immunology
Ipomoea batatas - microbiology
Models, Biological
Nicotiana - genetics
Nicotiana - microbiology
Oxylipins - metabolism
Oxylipins - pharmacology
Plant Diseases - microbiology
Plant Proteins - metabolism
Plants, Genetically Modified
Promoter Regions, Genetic - genetics
Protein Binding - drug effects
Transcription, Genetic - drug effects
Title IbBBX24 Promotes the Jasmonic Acid Pathway and Enhances Fusarium Wilt Resistance in Sweet Potato
URI https://www.ncbi.nlm.nih.gov/pubmed/32034034
https://www.proquest.com/docview/2352654548
https://pubmed.ncbi.nlm.nih.gov/PMC7145486
Volume 32
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