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首页> 外文期刊>The New Phytologist >The chaperone MeHSP90 recruits MeWRKY20 and MeCatalase1 to regulate drought stress resistance in cassava
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The chaperone MeHSP90 recruits MeWRKY20 and MeCatalase1 to regulate drought stress resistance in cassava

机译:Chaperone Mehsp90 recrate Mewrky20和mecatalase1调节木薯的干旱胁迫抗性

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摘要

The 90 kDa heat shock protein (HSP90) is widely involved in various developmental processes and stress responses in plants. However, the molecular chaperone HSP90-constructed protein complex and its function in cassava remain elusive. In this study, we report that HSP90 is essential for drought stress resistance in cassava by regulating abscisic acid (ABA) and hydrogen peroxide (H2O2) using two specific protein inhibitors of HSP90 (geldanamycin (GDA) and radicicol (RAD)). Among 10 MeHSP90s, the transcript of MeHSP90.9 is largely induced during drought stress. Further investigation identifies MeWRKY20 and MeCatalase1 as MeHSP90.9-interacting proteins. MeHSP90.9-, MeWRKY20-, or MeCatalase1-silenced plants through virus-induced gene silencing display drought sensitivity in cassava, indicating that they are important to drought stress response. MeHSP90.9 can promote the direct transcriptional activation of MeWRKY20 on the W-box element of MeNCED5 promoter, encoding a key enzyme in ABA biosynthesis. Moreover, MeHSP90.9 positively regulates the activity of MeCatalase1, and MeHSP90.9-silenced cassava leaves accumulate more H2O2 under drought stress. Taken together, we demonstrate that the MeHSP90.9 chaperone complex is a regulator of drought stress resistance in cassava.
机译:90kDa热休克蛋白(HSP90)广泛参与植物中各种发育过程和应力反应。然而,分子伴侣Hsp90构建的蛋白质复合物及其在木薯仍然难以捉摸。在本研究中,我们通过使用HSP90(Geldanamycin(GDA)和基胆(Rad)的两种特定的蛋白质抑制剂调节脱离酸(ABA)和过氧化氢(H2O2),HSP90对木薯抗胁迫性抗性抗旱是必不可少的。在10Mehsp90s中,MEHSP90.9的转录物在干旱胁迫期间大部分诱导。进一步调查将Mewrky20和MeCatalase1识别为MeHSP90.9相互作用蛋白。 Mehsp90.9-,Mewrky20-或Mecatalase1-沉默的植物通过病毒诱导的基因沉默在木薯溶液敏感性敏感性,表明它们对干旱应激反应很重要。 MEHSP90.9可以促进MEWRKY20对造型5启动子的W-BOX元素的直接转录激活,编码ABA生物合成中的关键酶。此外,MEHSP90.9积极调节MeCatalase1的活性,MeHSP90.9沉默的木薯叶在干旱胁迫下积聚更多H2O2。我们携带在一起,我们证明了MeHSP90.9伴侣络合物是木薯干旱胁迫抗性调节器。

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  • 来源
    《The New Phytologist》 |2020年第2期|共16页
  • 作者

    Wei Yunxie; Liu Wen; Hu Wei; Yan Yu; Shi Haitao;

  • 作者单位

    Hainan Univ Hainan Key Lab Sustainable Utilizat Trop Bioresou Coll Trop Crops Haikou 570228 Hainan Peoples R China;

    China Three Gorges Univ Key Lab Three Gorges Reg Plant Genet &

    Germplasm Biotechnol Res Ctr Coll Biol &

    Pharmaceut Sci Yichang 443002 Hubei Peoples R China;

    Chinese Acad Trop Agr Sci Inst Trop Biosci &

    Biotechnol Key Lab Biol &

    Genet Resources Trop Crops Xueyuan Rd 4 Haikou Hainan Peoples R China;

    Hainan Univ Hainan Key Lab Sustainable Utilizat Trop Bioresou Coll Trop Crops Haikou 570228 Hainan Peoples R China;

    Hainan Univ Hainan Key Lab Sustainable Utilizat Trop Bioresou Coll Trop Crops Haikou 570228 Hainan Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 植物学;
  • 关键词

    abscisic acid (ABA); chaperone complex; drought stress; MeHSP90; WRKY transcription factor;

    机译:脱落酸(ABA);伴侣络合物;干旱胁迫;MEHSP90;WRKY转录因子;

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