The WRKY6 transcription factor affects seed oil accumulation and alters fatty acid compositions in Arabidopsis thaliana

In rapeseed, the oil content of the seed not only supplies energy for seed germination and seedling development but also provides essential dietary nutrients for humans and livestock. Recent studies have revealed that many transcription factors (TFs) regulate the accumulation of fatty acids (FAs) du...

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Veröffentlicht in:	Physiologia plantarum 2020-08, Vol.169 (4), p.612-624
Hauptverfasser:	Song, Ge, Li, Xueping, Munir, Raheel, Khan, Ali Raza, Azhar, Wardah, Yasin, Muhammad Umair, Jiang, Qining, Bancroft, Ian, Gan, Yinbo
Format:	Artikel
Sprache:	eng
Schlagworte:	Accumulation Arabidopsis - genetics Arabidopsis Proteins Biosynthesis Brassica Brassica napus Composition Crop yield Fatty Acids Gene expression Gene Expression Regulation, Plant Genes, Plant Genetic resources Germination Livestock Mutation Nutrients Oils & fats Photosynthesis Plant Oils Pollination Rapeseed Seed germination Seedlings Seeds Seeds - genetics Senescence Transcription Factors Ultrastructure
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container_title	Physiologia plantarum
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creator	Song, Ge Li, Xueping Munir, Raheel Khan, Ali Raza Azhar, Wardah Yasin, Muhammad Umair Jiang, Qining Bancroft, Ian Gan, Yinbo
description	In rapeseed, the oil content of the seed not only supplies energy for seed germination and seedling development but also provides essential dietary nutrients for humans and livestock. Recent studies have revealed that many transcription factors (TFs) regulate the accumulation of fatty acids (FAs) during seed development. WRKY6, a WRKY6 family TF, was reported to serve a function in the plant senescence processes, pathogen defense mechanisms and abiotic stress responses. However, the precise role of WRKY6 in influencing FA accumulation in seeds is still unknown. In this study, we demonstrate that WRKY6 has a high expression level in developing seeds and plays an essential role in regulating the accumulation of FAs in developing seeds of Arabidopsis. Mutation of WRKY6 resulted in significant increase in seed size, accompanied by an increase in FA content and changes in FA composition. Ultrastructure analyses showed that the absence of WRKY6 resulted in more and higher percentage of oil body in the cell of mature seeds. Quantitative real‐time PCR analysis revealed changes in the expression of several genes related to photosynthesis and FA biosynthesis in wrky6 mutants at 10 or 16 days after pollination. These results reveal a novel function of WRKY6 influencing seed oil content and FAs compositions. This gene could be used as a promising gene resource to improve FA accumulation and seed yield in Brassica napus through genetic manipulation.
doi_str_mv	10.1111/ppl.13082
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Recent studies have revealed that many transcription factors (TFs) regulate the accumulation of fatty acids (FAs) during seed development. WRKY6, a WRKY6 family TF, was reported to serve a function in the plant senescence processes, pathogen defense mechanisms and abiotic stress responses. However, the precise role of WRKY6 in influencing FA accumulation in seeds is still unknown. In this study, we demonstrate that WRKY6 has a high expression level in developing seeds and plays an essential role in regulating the accumulation of FAs in developing seeds of Arabidopsis. Mutation of WRKY6 resulted in significant increase in seed size, accompanied by an increase in FA content and changes in FA composition. Ultrastructure analyses showed that the absence of WRKY6 resulted in more and higher percentage of oil body in the cell of mature seeds. Quantitative real‐time PCR analysis revealed changes in the expression of several genes related to photosynthesis and FA biosynthesis in wrky6 mutants at 10 or 16 days after pollination. These results reveal a novel function of WRKY6 influencing seed oil content and FAs compositions. 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Quantitative real‐time PCR analysis revealed changes in the expression of several genes related to photosynthesis and FA biosynthesis in wrky6 mutants at 10 or 16 days after pollination. These results reveal a novel function of WRKY6 influencing seed oil content and FAs compositions. 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Recent studies have revealed that many transcription factors (TFs) regulate the accumulation of fatty acids (FAs) during seed development. WRKY6, a WRKY6 family TF, was reported to serve a function in the plant senescence processes, pathogen defense mechanisms and abiotic stress responses. However, the precise role of WRKY6 in influencing FA accumulation in seeds is still unknown. In this study, we demonstrate that WRKY6 has a high expression level in developing seeds and plays an essential role in regulating the accumulation of FAs in developing seeds of Arabidopsis. Mutation of WRKY6 resulted in significant increase in seed size, accompanied by an increase in FA content and changes in FA composition. Ultrastructure analyses showed that the absence of WRKY6 resulted in more and higher percentage of oil body in the cell of mature seeds. Quantitative real‐time PCR analysis revealed changes in the expression of several genes related to photosynthesis and FA biosynthesis in wrky6 mutants at 10 or 16 days after pollination. These results reveal a novel function of WRKY6 influencing seed oil content and FAs compositions. This gene could be used as a promising gene resource to improve FA accumulation and seed yield in Brassica napus through genetic manipulation.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>32129896</pmid><doi>10.1111/ppl.13082</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Accumulation Arabidopsis - genetics Arabidopsis Proteins Biosynthesis Brassica Brassica napus Composition Crop yield Fatty Acids Gene expression Gene Expression Regulation, Plant Genes, Plant Genetic resources Germination Livestock Mutation Nutrients Oils & fats Photosynthesis Plant Oils Pollination Rapeseed Seed germination Seedlings Seeds Seeds - genetics Senescence Transcription Factors Ultrastructure
title	The WRKY6 transcription factor affects seed oil accumulation and alters fatty acid compositions in Arabidopsis thaliana
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