Altered gene expression by sedaxane increases PSII efficiency, photosynthesis and growth and improves tolerance to drought in wheat seedlings

Succinate dehydrogenase inhibitor (SDHI) fungicides have been shown to increase PSII efficiency and photosynthesis under drought stress in the absence of disease to enhance the biomass and yield of winter wheat. However, the molecular mechanism of improved photosynthetic efficiency observed in SDHI-...

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Veröffentlicht in:	Pesticide biochemistry and physiology 2017-04, Vol.137, p.49-61
Hauptverfasser:	Ajigboye, Olubukola O., Lu, Chungui, Murchie, Erik H., Schlatter, Christian, Swart, Gina, Ray, Rumiana V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anilides - pharmacology Drought Droughts Fungicides, Industrial - pharmacology Gene expression Gene Regulatory Networks - drug effects Photosynthesis - drug effects Photosynthesis - genetics Photosystem II Photosystem II Protein Complex - metabolism Pyrazoles - pharmacology Sedaxane Seedlings - drug effects Seedlings - genetics Seedlings - growth & development Seedlings - metabolism Triticum - drug effects Triticum - genetics Triticum - growth & development Triticum - metabolism Wheat
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creator	Ajigboye, Olubukola O. Lu, Chungui Murchie, Erik H. Schlatter, Christian Swart, Gina Ray, Rumiana V.
description	Succinate dehydrogenase inhibitor (SDHI) fungicides have been shown to increase PSII efficiency and photosynthesis under drought stress in the absence of disease to enhance the biomass and yield of winter wheat. However, the molecular mechanism of improved photosynthetic efficiency observed in SDHI-treated wheat has not been previously elucidated. Here we used a combination of chlorophyll fluorescence, gas exchange and gene expression analysis, to aid our understanding of the basis of the physiological responses of wheat seedlings under drought conditions to sedaxane, a novel SDHI seed treatment. We show that sedaxane increased the efficiency of PSII photochemistry, reduced non-photochemical quenching and improved the photosynthesis and biomass in wheat correlating with systemic changes in the expression of genes involved in defense, chlorophyll synthesis and cell wall modification. We applied a coexpression network-based approach using differentially expressed genes of leaves, roots and pregerminated seeds from our wheat array datasets to identify the most important hub genes, with top ranked correlation (higher gene association value and z-score) involved in cell wall expansion and strengthening, wax and pigment biosynthesis and defense. The results indicate that sedaxane confers tolerant responses of wheat plants grown under drought conditions by redirecting metabolites from defense/stress responses towards growth and adaptive development. [Display omitted] •Sedaxane increased PSII efficiency and photosynthesis and reduced NPQ of wheat seedlings grown under drought stress.•Genes regulating oxidative stress/defense, chlorophyll biosynthesis and cell wall modification were differentially expressed.•Increased drought tolerance by sedaxane is associated with plant metabolism changes towards growth and adaptive development.
doi_str_mv	10.1016/j.pestbp.2016.09.008
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However, the molecular mechanism of improved photosynthetic efficiency observed in SDHI-treated wheat has not been previously elucidated. Here we used a combination of chlorophyll fluorescence, gas exchange and gene expression analysis, to aid our understanding of the basis of the physiological responses of wheat seedlings under drought conditions to sedaxane, a novel SDHI seed treatment. We show that sedaxane increased the efficiency of PSII photochemistry, reduced non-photochemical quenching and improved the photosynthesis and biomass in wheat correlating with systemic changes in the expression of genes involved in defense, chlorophyll synthesis and cell wall modification. We applied a coexpression network-based approach using differentially expressed genes of leaves, roots and pregerminated seeds from our wheat array datasets to identify the most important hub genes, with top ranked correlation (higher gene association value and z-score) involved in cell wall expansion and strengthening, wax and pigment biosynthesis and defense. The results indicate that sedaxane confers tolerant responses of wheat plants grown under drought conditions by redirecting metabolites from defense/stress responses towards growth and adaptive development. [Display omitted] •Sedaxane increased PSII efficiency and photosynthesis and reduced NPQ of wheat seedlings grown under drought stress.•Genes regulating oxidative stress/defense, chlorophyll biosynthesis and cell wall modification were differentially expressed.•Increased drought tolerance by sedaxane is associated with plant metabolism changes towards growth and adaptive development.</description><identifier>ISSN: 0048-3575</identifier><identifier>EISSN: 1095-9939</identifier><identifier>DOI: 10.1016/j.pestbp.2016.09.008</identifier><identifier>PMID: 28364804</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Anilides - pharmacology ; Drought ; Droughts ; Fungicides, Industrial - pharmacology ; Gene expression ; Gene Regulatory Networks - drug effects ; Photosynthesis - drug effects ; Photosynthesis - genetics ; Photosystem II ; Photosystem II Protein Complex - metabolism ; Pyrazoles - pharmacology ; Sedaxane ; Seedlings - drug effects ; Seedlings - genetics ; Seedlings - growth & development ; Seedlings - metabolism ; Triticum - drug effects ; Triticum - genetics ; Triticum - growth & development ; Triticum - metabolism ; Wheat</subject><ispartof>Pesticide biochemistry and physiology, 2017-04, Vol.137, p.49-61</ispartof><rights>2016 Elsevier Inc.</rights><rights>Copyright © 2016 Elsevier Inc. 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However, the molecular mechanism of improved photosynthetic efficiency observed in SDHI-treated wheat has not been previously elucidated. Here we used a combination of chlorophyll fluorescence, gas exchange and gene expression analysis, to aid our understanding of the basis of the physiological responses of wheat seedlings under drought conditions to sedaxane, a novel SDHI seed treatment. We show that sedaxane increased the efficiency of PSII photochemistry, reduced non-photochemical quenching and improved the photosynthesis and biomass in wheat correlating with systemic changes in the expression of genes involved in defense, chlorophyll synthesis and cell wall modification. We applied a coexpression network-based approach using differentially expressed genes of leaves, roots and pregerminated seeds from our wheat array datasets to identify the most important hub genes, with top ranked correlation (higher gene association value and z-score) involved in cell wall expansion and strengthening, wax and pigment biosynthesis and defense. The results indicate that sedaxane confers tolerant responses of wheat plants grown under drought conditions by redirecting metabolites from defense/stress responses towards growth and adaptive development. [Display omitted] •Sedaxane increased PSII efficiency and photosynthesis and reduced NPQ of wheat seedlings grown under drought stress.•Genes regulating oxidative stress/defense, chlorophyll biosynthesis and cell wall modification were differentially expressed.•Increased drought tolerance by sedaxane is associated with plant metabolism changes towards growth and adaptive development.</description><subject>Anilides - pharmacology</subject><subject>Drought</subject><subject>Droughts</subject><subject>Fungicides, Industrial - pharmacology</subject><subject>Gene expression</subject><subject>Gene Regulatory Networks - drug effects</subject><subject>Photosynthesis - drug effects</subject><subject>Photosynthesis - genetics</subject><subject>Photosystem II</subject><subject>Photosystem II Protein Complex - metabolism</subject><subject>Pyrazoles - pharmacology</subject><subject>Sedaxane</subject><subject>Seedlings - drug effects</subject><subject>Seedlings - genetics</subject><subject>Seedlings - growth & development</subject><subject>Seedlings - metabolism</subject><subject>Triticum - drug effects</subject><subject>Triticum - genetics</subject><subject>Triticum - growth & development</subject><subject>Triticum - metabolism</subject><subject>Wheat</subject><issn>0048-3575</issn><issn>1095-9939</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9UcFu1DAQtRCIbgt_gJCPHEhwbCexL0hVBWWlSiABZ8trTzZeZePg8bbdj-CfcbuFIyePR2_em3mPkDcNqxvWdB929QKYN0vNy69mumZMPSOrhum20lro52TFmFSVaPv2jJwj7hhjWjL9kpxxJTqpmFyR35dThgSebmEGCvdLAsQQZ7o5UgRv721ph9klsAhIv31frykMQ3ABZnd8T5cx5ojHOY-AAamdC1OKd3l8LMN-SfG2zOU4QbKzg1JRn-JhO-ZCS-9GsLkIgZ_CvMVX5MVgJ4TXT-8F-fn504-rL9XN1-v11eVN5SRTudp0vRWtV7xvu6EdeKu4cp21oL1Q0jspOSgpuGxAW2Fl61Rf2rwTtpFcg7gg7068Zb1fh2Kj2Qd0ME3l2nhA0yhViHjP2wKVJ6hLETHBYJYU9jYdTcPMQxBmZ05BmIcgDNOmBFHG3j4pHDZ78P-G_jpfAB9PACh33gZIBh89BR8SuGx8DP9X-ANJi55q</recordid><startdate>201704</startdate><enddate>201704</enddate><creator>Ajigboye, Olubukola O.</creator><creator>Lu, Chungui</creator><creator>Murchie, Erik H.</creator><creator>Schlatter, Christian</creator><creator>Swart, Gina</creator><creator>Ray, Rumiana V.</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0002-0064-4725</orcidid></search><sort><creationdate>201704</creationdate><title>Altered gene expression by sedaxane increases PSII efficiency, photosynthesis and growth and improves tolerance to drought in wheat seedlings</title><author>Ajigboye, Olubukola O. ; 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However, the molecular mechanism of improved photosynthetic efficiency observed in SDHI-treated wheat has not been previously elucidated. Here we used a combination of chlorophyll fluorescence, gas exchange and gene expression analysis, to aid our understanding of the basis of the physiological responses of wheat seedlings under drought conditions to sedaxane, a novel SDHI seed treatment. We show that sedaxane increased the efficiency of PSII photochemistry, reduced non-photochemical quenching and improved the photosynthesis and biomass in wheat correlating with systemic changes in the expression of genes involved in defense, chlorophyll synthesis and cell wall modification. We applied a coexpression network-based approach using differentially expressed genes of leaves, roots and pregerminated seeds from our wheat array datasets to identify the most important hub genes, with top ranked correlation (higher gene association value and z-score) involved in cell wall expansion and strengthening, wax and pigment biosynthesis and defense. The results indicate that sedaxane confers tolerant responses of wheat plants grown under drought conditions by redirecting metabolites from defense/stress responses towards growth and adaptive development. 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subjects	Anilides - pharmacology Drought Droughts Fungicides, Industrial - pharmacology Gene expression Gene Regulatory Networks - drug effects Photosynthesis - drug effects Photosynthesis - genetics Photosystem II Photosystem II Protein Complex - metabolism Pyrazoles - pharmacology Sedaxane Seedlings - drug effects Seedlings - genetics Seedlings - growth & development Seedlings - metabolism Triticum - drug effects Triticum - genetics Triticum - growth & development Triticum - metabolism Wheat
title	Altered gene expression by sedaxane increases PSII efficiency, photosynthesis and growth and improves tolerance to drought in wheat seedlings
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