Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis

Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis

Soybean is an important and staple oilseed crop worldwide. Salinity stress has adverse effects on soybean development periods, especially on seed germination and post-germinative growth. Improving seed germination and emergence will have positive effects under salt stress conditions on agricultural...

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Main Authors: Kai Shu, Ying Qi, Feng Chen, Yongjie Meng, Xiaofeng Luo, Haiwei Shuai, Wenguan Zhou, Jun Ding, Junbo Du, Jiang Liu, Feng Yang, Qiang Wang, Weiguo Liu, Taiwen Yong, Xiaochun Wang, Yuqi Feng, Wenyu Yang
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-08-01
Series:Frontiers in Plant Science
Subjects:
salinity
seed germination
abscisic acid
gibberellin
soybean
Online Access:http://journal.frontiersin.org/article/10.3389/fpls.2017.01372/full
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record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Kai Shu
Ying Qi
Feng Chen
Yongjie Meng
Xiaofeng Luo
Haiwei Shuai
Wenguan Zhou
Jun Ding
Junbo Du
Jiang Liu
Feng Yang
Qiang Wang
Weiguo Liu
Taiwen Yong
Xiaochun Wang
Yuqi Feng
Wenyu Yang
spellingShingle Kai Shu
Ying Qi
Feng Chen
Yongjie Meng
Xiaofeng Luo
Haiwei Shuai
Wenguan Zhou
Jun Ding
Junbo Du
Jiang Liu
Feng Yang
Qiang Wang
Weiguo Liu
Taiwen Yong
Xiaochun Wang
Yuqi Feng
Wenyu Yang
Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis
Frontiers in Plant Science
salinity
seed germination
abscisic acid
gibberellin
soybean
author_facet Kai Shu
Ying Qi
Feng Chen
Yongjie Meng
Xiaofeng Luo
Haiwei Shuai
Wenguan Zhou
Jun Ding
Junbo Du
Jiang Liu
Feng Yang
Qiang Wang
Weiguo Liu
Taiwen Yong
Xiaochun Wang
Yuqi Feng
Wenyu Yang
author_sort Kai Shu
title Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis
title_short Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis
title_full Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis
title_fullStr Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis
title_full_unstemmed Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA Biosynthesis
title_sort salt stress represses soybean seed germination by negatively regulating ga biosynthesis while positively mediating aba biosynthesis
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2017-08-01
description Soybean is an important and staple oilseed crop worldwide. Salinity stress has adverse effects on soybean development periods, especially on seed germination and post-germinative growth. Improving seed germination and emergence will have positive effects under salt stress conditions on agricultural production. Here we report that NaCl delays soybean seed germination by negatively regulating gibberellin (GA) while positively mediating abscisic acid (ABA) biogenesis, which leads to a decrease in the GA/ABA ratio. This study suggests that fluridone (FLUN), an ABA biogenesis inhibitor, might be a potential plant growth regulator that can promote soybean seed germination under saline stress. Different soybean cultivars, which possessed distinct genetic backgrounds, showed a similar repressed phenotype during seed germination under exogenous NaCl application. Biochemical analysis revealed that NaCl treatment led to high MDA (malondialdehyde) level during germination and the post-germinative growth stages. Furthermore, catalase, superoxide dismutase, and peroxidase activities also changed after NaCl treatment. Subsequent quantitative Real-Time Polymerase Chain Reaction analysis showed that the transcription levels of ABA and GA biogenesis and signaling genes were altered after NaCl treatment. In line with this, phytohormone measurement also revealed that NaCl considerably down-regulated active GA1, GA3, and GA4 levels, whereas the ABA content was up-regulated; and therefore ratios, such as GA1/ABA, GA3/ABA, and GA4/ABA, are decreased. Consistent with the hormonal quantification, FLUN partially rescued the delayed-germination phenotype caused by NaCl-treatment. Altogether, these results demonstrate that NaCl stress inhibits soybean seed germination by decreasing the GA/ABA ratio, and that FLUN might be a potential plant growth regulator that could promote soybean seed germination under salinity stress.
topic salinity
seed germination
abscisic acid
gibberellin
soybean
url http://journal.frontiersin.org/article/10.3389/fpls.2017.01372/full
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spelling doaj-7093c4270dc34919983f473573d8ba1d2020-11-24T23:04:54ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2017-08-01810.3389/fpls.2017.01372282372Salt Stress Represses Soybean Seed Germination by Negatively Regulating GA Biosynthesis While Positively Mediating ABA BiosynthesisKai Shu0Ying Qi1Feng Chen2Yongjie Meng3Xiaofeng Luo4Haiwei Shuai5Wenguan Zhou6Jun Ding7Junbo Du8Jiang Liu9Feng Yang10Qiang Wang11Weiguo Liu12Taiwen Yong13Xiaochun Wang14Yuqi Feng15Wenyu Yang16Key Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Analytical Chemistry for Biology and Medicine (Ministry of Education), Department of Chemistry, Wuhan UniversityWuhan, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaKey Laboratory of Analytical Chemistry for Biology and Medicine (Ministry of Education), Department of Chemistry, Wuhan UniversityWuhan, ChinaKey Laboratory of Crop Ecophysiology and Farming System in Southwest China, Sichuan Engineering Research Center for Crop Strip Intercropping System, Institute of Ecological Agriculture, Sichuan Agricultural UniversityChengdu, ChinaSoybean is an important and staple oilseed crop worldwide. Salinity stress has adverse effects on soybean development periods, especially on seed germination and post-germinative growth. Improving seed germination and emergence will have positive effects under salt stress conditions on agricultural production. Here we report that NaCl delays soybean seed germination by negatively regulating gibberellin (GA) while positively mediating abscisic acid (ABA) biogenesis, which leads to a decrease in the GA/ABA ratio. This study suggests that fluridone (FLUN), an ABA biogenesis inhibitor, might be a potential plant growth regulator that can promote soybean seed germination under saline stress. Different soybean cultivars, which possessed distinct genetic backgrounds, showed a similar repressed phenotype during seed germination under exogenous NaCl application. Biochemical analysis revealed that NaCl treatment led to high MDA (malondialdehyde) level during germination and the post-germinative growth stages. Furthermore, catalase, superoxide dismutase, and peroxidase activities also changed after NaCl treatment. Subsequent quantitative Real-Time Polymerase Chain Reaction analysis showed that the transcription levels of ABA and GA biogenesis and signaling genes were altered after NaCl treatment. In line with this, phytohormone measurement also revealed that NaCl considerably down-regulated active GA1, GA3, and GA4 levels, whereas the ABA content was up-regulated; and therefore ratios, such as GA1/ABA, GA3/ABA, and GA4/ABA, are decreased. Consistent with the hormonal quantification, FLUN partially rescued the delayed-germination phenotype caused by NaCl-treatment. Altogether, these results demonstrate that NaCl stress inhibits soybean seed germination by decreasing the GA/ABA ratio, and that FLUN might be a potential plant growth regulator that could promote soybean seed germination under salinity stress.http://journal.frontiersin.org/article/10.3389/fpls.2017.01372/fullsalinityseed germinationabscisic acidgibberellinsoybean

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