Redox-inactive CC-type glutaredoxins interfere with TGA transcription factor–dependent repression of target promoters in roots

The Plant Cell Pub Date : 2025-03-07 DOI:10.1093/plcell/koaf038

Corinna Thurow, Anja Maren Pelizaeus, Pascal Mrozek, Ben Moritz Hoßbach, Jelena Budimir, Kerstin Schmitt, Oliver Valerius, Gerhard Braus, Christiane Gatz

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Abstract

Changes in nitrogen (N) availability in the soil trigger transcriptional responses in plants to optimize N acquisition, allocation, and remobilization. In roots of N-starved Arabidopsis (Arabidopsis thaliana) plants, transcriptional activation of genes encoding, for example, low-affinity nitrate transporters, depends on 4 related C-TERMINALLY ENCODED PEPTIDE DOWNSTREAM (CEPD) proteins, also known as ROXY6, ROXY7, ROXY8, and ROXY9. All 21 ROXYs found in A. thaliana interact with members of the TGACG-binding (TGA) family of transcription factors. Here, we demonstrate that 2 Clade I TGAs (TGA1, TGA4) serve as molecular links between CEPDs and their target promoters in roots. In the roxy6 roxy7 roxy8 roxy9 quadruple mutant (named cepd in this manuscript), transcriptional activation of N-starvation-inducible genes is impaired, most likely due to the association of Clade I TGAs with a repressive complex at their target promoters. In wild-type plants, this repressive complex is nonfunctional, and gene expression may be regulated by the N supply-regulated ratio of CEPDs over opposing ROXYs containing the TOPLESS-interacting ALWL motif. Although CEPDs resemble glutaredoxins with glutathione-dependent oxidoreductase activity, a ROXY9 variant with a mutation in the catalytic cysteine in its putative active site can confer wild-type-like regulation of target genes. This finding demonstrates that ROXY9 does not function through redox-dependent mechanisms.

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氧化还原不活跃的cc型glutaredoxins干扰TGA转录因子依赖的靶启动子在根中的抑制

土壤氮素有效性的变化触发植物的转录反应，以优化氮素的获取、分配和再动员。在缺氮的拟南芥（Arabidopsis thaliana）植物根系中，编码低亲和力硝酸盐转运蛋白等基因的转录激活依赖于4种相关的c - terminal ENCODED PEPTIDE DOWNSTREAM （CEPD）蛋白，也称为ROXY6、ROXY7、ROXY8和ROXY9。在拟南芥中发现的所有21种ROXYs都与tgacg结合（TGA）转录因子家族的成员相互作用。在这里，我们证明了2个Clade I TGAs （TGA1, TGA4）在根中作为cepd与其靶启动子之间的分子链接。在roxy6 roxy7 roxy8 roxy9四重突变体（本文命名为cepd）中，n-饥饿诱导基因的转录激活受损，很可能是由于Clade I TGAs与靶启动子上的抑制复合体相关联。在野生型植物中，这种抑制复合体是无功能的，基因表达可能受到N供应调节的cepd与含有topless相互作用ALWL基序的对立ROXYs的比例的调节。虽然cepd类似于谷胱甘肽依赖的氧化还原酶活性的谷胱甘肽，但在其假定的活性位点催化半胱氨酸突变的ROXY9变体可以赋予靶基因类似野生型的调控。这一发现表明ROXY9不通过氧化还原依赖机制发挥作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Plant Cell

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