Yao Wang, Dan Zou, Chang-Hao Cheng, Jie Zhang, Jing-Bo Zhang, Yong Zheng, Yang Li, Xue-Bao Li
{"title":"棉花纤维次生细胞壁(SCW)的形成需要 GhTBL3 来维持木聚糖的乙酰化。","authors":"Yao Wang, Dan Zou, Chang-Hao Cheng, Jie Zhang, Jing-Bo Zhang, Yong Zheng, Yang Li, Xue-Bao Li","doi":"10.1111/tpj.17167","DOIUrl":null,"url":null,"abstract":"<p><p>TBL family proteins containing the domain of unknown function mainly act as xylan O-acetyltransferases, but the specific molecular mechanism of their functions remains unclear in plants (especially in cotton) so far. In this study, we characterized the TBL family proteins containing the conserved GDS and DxxH motifs in cotton (Gossypium hirsutum). Among them, GhTBL3 is highly expressed in fibers at the stage of secondary cell wall (SCW) formation and mainly functions as O-acetyltransferase to maintain acetylation of xylan in fiber SCW development. Overexpression of GhTBL3 in cotton promoted fiber SCW formation, resulting in increased fiber cell wall thickness. In contrast, suppression of GhTBL3 expression in cotton impaired fiber SCW synthesis, leading to the decreased fiber cell wall thickness, compared with wild type (WT). Furthermore, two fiber SCW-related transcription factors GhMYBL1 and GhKNL1 were found to directly bind to the promoter of GhTBL3 in cotton. GhMYBL1 enhanced the transcription activity of GhTBL3, whereas GhKNL1 inhibited the expression of GhTBL3 in fibers. The acetylation level of xylan was remarkably decreased in fibers of GhMYBL1 RNAi transgenic cotton, but the acetylation level of xylan was significantly increased in fibers of GhKNL1 RNAi cotton, relative to WT. Given together, the above results suggested that GhTBL3 may be under the dual control of GhMYBL1 and GhKNL1 to maintain the suitable acetylation level of xylan required for fiber SCW formation in cotton. Thus, our data provide an effective clue for potentially improving fiber quality by genetic manipulation of GhTBL3 in cotton breeding.</p>","PeriodicalId":233,"journal":{"name":"The Plant Journal","volume":" ","pages":""},"PeriodicalIF":6.2000,"publicationDate":"2024-11-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"GhTBL3 is required for fiber secondary cell wall (SCW) formation via maintaining acetylation of xylan in cotton.\",\"authors\":\"Yao Wang, Dan Zou, Chang-Hao Cheng, Jie Zhang, Jing-Bo Zhang, Yong Zheng, Yang Li, Xue-Bao Li\",\"doi\":\"10.1111/tpj.17167\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>TBL family proteins containing the domain of unknown function mainly act as xylan O-acetyltransferases, but the specific molecular mechanism of their functions remains unclear in plants (especially in cotton) so far. In this study, we characterized the TBL family proteins containing the conserved GDS and DxxH motifs in cotton (Gossypium hirsutum). Among them, GhTBL3 is highly expressed in fibers at the stage of secondary cell wall (SCW) formation and mainly functions as O-acetyltransferase to maintain acetylation of xylan in fiber SCW development. Overexpression of GhTBL3 in cotton promoted fiber SCW formation, resulting in increased fiber cell wall thickness. In contrast, suppression of GhTBL3 expression in cotton impaired fiber SCW synthesis, leading to the decreased fiber cell wall thickness, compared with wild type (WT). Furthermore, two fiber SCW-related transcription factors GhMYBL1 and GhKNL1 were found to directly bind to the promoter of GhTBL3 in cotton. GhMYBL1 enhanced the transcription activity of GhTBL3, whereas GhKNL1 inhibited the expression of GhTBL3 in fibers. The acetylation level of xylan was remarkably decreased in fibers of GhMYBL1 RNAi transgenic cotton, but the acetylation level of xylan was significantly increased in fibers of GhKNL1 RNAi cotton, relative to WT. Given together, the above results suggested that GhTBL3 may be under the dual control of GhMYBL1 and GhKNL1 to maintain the suitable acetylation level of xylan required for fiber SCW formation in cotton. 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GhTBL3 is required for fiber secondary cell wall (SCW) formation via maintaining acetylation of xylan in cotton.
TBL family proteins containing the domain of unknown function mainly act as xylan O-acetyltransferases, but the specific molecular mechanism of their functions remains unclear in plants (especially in cotton) so far. In this study, we characterized the TBL family proteins containing the conserved GDS and DxxH motifs in cotton (Gossypium hirsutum). Among them, GhTBL3 is highly expressed in fibers at the stage of secondary cell wall (SCW) formation and mainly functions as O-acetyltransferase to maintain acetylation of xylan in fiber SCW development. Overexpression of GhTBL3 in cotton promoted fiber SCW formation, resulting in increased fiber cell wall thickness. In contrast, suppression of GhTBL3 expression in cotton impaired fiber SCW synthesis, leading to the decreased fiber cell wall thickness, compared with wild type (WT). Furthermore, two fiber SCW-related transcription factors GhMYBL1 and GhKNL1 were found to directly bind to the promoter of GhTBL3 in cotton. GhMYBL1 enhanced the transcription activity of GhTBL3, whereas GhKNL1 inhibited the expression of GhTBL3 in fibers. The acetylation level of xylan was remarkably decreased in fibers of GhMYBL1 RNAi transgenic cotton, but the acetylation level of xylan was significantly increased in fibers of GhKNL1 RNAi cotton, relative to WT. Given together, the above results suggested that GhTBL3 may be under the dual control of GhMYBL1 and GhKNL1 to maintain the suitable acetylation level of xylan required for fiber SCW formation in cotton. Thus, our data provide an effective clue for potentially improving fiber quality by genetic manipulation of GhTBL3 in cotton breeding.
期刊介绍:
Publishing the best original research papers in all key areas of modern plant biology from the world"s leading laboratories, The Plant Journal provides a dynamic forum for this ever growing international research community.
Plant science research is now at the forefront of research in the biological sciences, with breakthroughs in our understanding of fundamental processes in plants matching those in other organisms. The impact of molecular genetics and the availability of model and crop species can be seen in all aspects of plant biology. For publication in The Plant Journal the research must provide a highly significant new contribution to our understanding of plants and be of general interest to the plant science community.
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