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      論文

      Zinc finger transcription factors BnaSTOP2s regulate sulfur metabolism and confer resistance to Sclerotinia sclerotiorum in Brassica napus

      論文作者

      Lihong DaiZhaoqi XieTianxu AiYushun JiaoXiaoyi LianAngchen LongJinyun ZhangGuangsheng YangDengfeng Hong

      刊物

      JIPB

      標(biāo)識(shí)符

      10.1111/jipb.13801

      摘要

      Rapeseed (Brassica napus L.) has a high sulfur requirement for optimal growth, development, and pathogen resistance. In this study, we identified zinc finger transcription factors, BnaSTOP2s, that play key roles in sulfur metabolism and Sclerotinia sclerotiorum resistance. First, our results suggested that BnaSTOP2s are involved in sulfur as evidenced from extensive protein interaction screening. Knockout of BnaSTOP2s reduced the response sensitivity in both sulfur-deficient and sulfur-excessive conditions by promoting the elongation of primary roots of seedlings. Furthermore, the content of essential sulfur-containing metabolites, including glucosinolate and glutathione, were substantially down-regulated in roots and leaves of Bnastop2 mutants, which is consistent with the significantly lowered transcriptional levels of key players of GSL synthesis and transportation, BnaMYB28s and BnaGTR2s, respectively. Through comprehensive RNA-seq analysis, we revealed the substantial effect of BnaSTOP2s on sulfur metabolism from source to sink. Additionally, we observed a significant decrease while increase in leaf lesion sizes of the BnaSTOP2-OE and Bnastop2 mutants, respectively, when compared to the wild type during Sclerotinia sclerotiorum infection, suggesting the vital role of BnaSTOP2 in plant defense response. Overall, our findings highlight that BnaSTOP2s seems to be global regulators of sulfur metabolism and confer resistance to Sclerotinia sclerotiorum infection in B. napus.


      Zinc finger transcription factors BnaSTOP2s regulate 1 sulfur metabolism and confer resistance to Sclerotinia sclerotiorum in Brassica napus.pdf


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