Wheat TaAP2/ERF Genes Regulate Heat Tolerance Through Ethylene Signaling at Grain-Filling Stage

Wheat is a globally important crop, and its production is critically challenged by heat stress. To understand the heat tolerance mechanism at grain-filling stage in wheat, two genotypes, W156 (tolerant) and Brazil 32 (susceptible) were evaluated for their morphological responses and expressions of T...

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Veröffentlicht in:	Journal of plant growth regulation 2024-08, Vol.43 (8), p.2855-2872
Hauptverfasser:	Magar, Manu Maya, Liu, Hui, Yan, Guijun
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Sprache:	eng
Schlagworte:	Agriculture Biomedical and Life Sciences Brazil chlorophyll computer simulation Crop production Developmental stages Ethylene filling period Gene expression gene expression regulation gene ontology Gene set enrichment analysis Genes Genotypes Grain Heat stress Heat tolerance leaves Life Sciences Network analysis peduncle Plant Anatomy/Development plant growth Plant Physiology Plant Sciences seeds Senescence Signal transduction Temperature effects transcription factors Wheat
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creator	Magar, Manu Maya Liu, Hui Yan, Guijun
description	Wheat is a globally important crop, and its production is critically challenged by heat stress. To understand the heat tolerance mechanism at grain-filling stage in wheat, two genotypes, W156 (tolerant) and Brazil 32 (susceptible) were evaluated for their morphological responses and expressions of TaAP2/ERF super-family transcription factor genes under heat stress (at 37/27 °C) at 11 days and 13 days post-anthesis. The W156 showed significantly higher thousand kernel weight (TKW), chlorophyll fluorescence (Fv/Fm) and delayed senescence of flag leaf and exposed peduncle. Twenty-two differentially expressed genes (DEGs) were selected from in silico expression analysis of 630 TaAP2/ERF genes under abiotic stress and their RT-qPCR expression validation identified twenty major DEGs responsive to heat stress. Co-expression network analysis of these DEGs identified hub TF genes including TraesCS1A02G221900 , TraesCS6D02G324200 , TraesCS6B02G331000 , TraesCS4D02G298600 , TraesCS5B02G193200, and TraesCS1A02G058400 . Gene Ontology analysis and Gene Set Enrichment Analysis further revealed that 16 (80%) out of the 20 DEGs were involved in the ethylene-activated signaling pathway. Those DEGs involved in ethylene signaling pathway were further validated in an additional pair of contrasting genotypes (Perenjori and Yitpi). Therefore, heat tolerance regulated by TaAP2/ERF genes at grain filling stage of wheat may be mainly through ethylene signaling pathway while maintaining seed development under heat stress.
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To understand the heat tolerance mechanism at grain-filling stage in wheat, two genotypes, W156 (tolerant) and Brazil 32 (susceptible) were evaluated for their morphological responses and expressions of TaAP2/ERF super-family transcription factor genes under heat stress (at 37/27 °C) at 11 days and 13 days post-anthesis. The W156 showed significantly higher thousand kernel weight (TKW), chlorophyll fluorescence (Fv/Fm) and delayed senescence of flag leaf and exposed peduncle. Twenty-two differentially expressed genes (DEGs) were selected from in silico expression analysis of 630 TaAP2/ERF genes under abiotic stress and their RT-qPCR expression validation identified twenty major DEGs responsive to heat stress. Co-expression network analysis of these DEGs identified hub TF genes including TraesCS1A02G221900 , TraesCS6D02G324200 , TraesCS6B02G331000 , TraesCS4D02G298600 , TraesCS5B02G193200, and TraesCS1A02G058400 . Gene Ontology analysis and Gene Set Enrichment Analysis further revealed that 16 (80%) out of the 20 DEGs were involved in the ethylene-activated signaling pathway. Those DEGs involved in ethylene signaling pathway were further validated in an additional pair of contrasting genotypes (Perenjori and Yitpi). 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To understand the heat tolerance mechanism at grain-filling stage in wheat, two genotypes, W156 (tolerant) and Brazil 32 (susceptible) were evaluated for their morphological responses and expressions of TaAP2/ERF super-family transcription factor genes under heat stress (at 37/27 °C) at 11 days and 13 days post-anthesis. The W156 showed significantly higher thousand kernel weight (TKW), chlorophyll fluorescence (Fv/Fm) and delayed senescence of flag leaf and exposed peduncle. Twenty-two differentially expressed genes (DEGs) were selected from in silico expression analysis of 630 TaAP2/ERF genes under abiotic stress and their RT-qPCR expression validation identified twenty major DEGs responsive to heat stress. Co-expression network analysis of these DEGs identified hub TF genes including TraesCS1A02G221900 , TraesCS6D02G324200 , TraesCS6B02G331000 , TraesCS4D02G298600 , TraesCS5B02G193200, and TraesCS1A02G058400 . Gene Ontology analysis and Gene Set Enrichment Analysis further revealed that 16 (80%) out of the 20 DEGs were involved in the ethylene-activated signaling pathway. Those DEGs involved in ethylene signaling pathway were further validated in an additional pair of contrasting genotypes (Perenjori and Yitpi). 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To understand the heat tolerance mechanism at grain-filling stage in wheat, two genotypes, W156 (tolerant) and Brazil 32 (susceptible) were evaluated for their morphological responses and expressions of TaAP2/ERF super-family transcription factor genes under heat stress (at 37/27 °C) at 11 days and 13 days post-anthesis. The W156 showed significantly higher thousand kernel weight (TKW), chlorophyll fluorescence (Fv/Fm) and delayed senescence of flag leaf and exposed peduncle. Twenty-two differentially expressed genes (DEGs) were selected from in silico expression analysis of 630 TaAP2/ERF genes under abiotic stress and their RT-qPCR expression validation identified twenty major DEGs responsive to heat stress. Co-expression network analysis of these DEGs identified hub TF genes including TraesCS1A02G221900 , TraesCS6D02G324200 , TraesCS6B02G331000 , TraesCS4D02G298600 , TraesCS5B02G193200, and TraesCS1A02G058400 . Gene Ontology analysis and Gene Set Enrichment Analysis further revealed that 16 (80%) out of the 20 DEGs were involved in the ethylene-activated signaling pathway. Those DEGs involved in ethylene signaling pathway were further validated in an additional pair of contrasting genotypes (Perenjori and Yitpi). Therefore, heat tolerance regulated by TaAP2/ERF genes at grain filling stage of wheat may be mainly through ethylene signaling pathway while maintaining seed development under heat stress.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s00344-024-11313-y</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0002-4140-8999</orcidid><orcidid>https://orcid.org/0000-0003-1653-5774</orcidid><orcidid>https://orcid.org/0000-0001-9628-1211</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agriculture Biomedical and Life Sciences Brazil chlorophyll computer simulation Crop production Developmental stages Ethylene filling period Gene expression gene expression regulation gene ontology Gene set enrichment analysis Genes Genotypes Grain Heat stress Heat tolerance leaves Life Sciences Network analysis peduncle Plant Anatomy/Development plant growth Plant Physiology Plant Sciences seeds Senescence Signal transduction Temperature effects transcription factors Wheat
title	Wheat TaAP2/ERF Genes Regulate Heat Tolerance Through Ethylene Signaling at Grain-Filling Stage
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