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细胞质 HSC70s 抑制热应激耐受性并增强盐胁迫条件下的种子萌发。

Cytosolic HSC70s repress heat stress tolerance and enhance seed germination under salt stress conditions.

机构信息

Laboratory of Plant Molecular Physiology, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo, Japan.

Gene Discovery Research Group, RIKEN Center for Sustainable Resource Science, Tsukuba, Ibaraki, Japan.

出版信息

Plant Cell Environ. 2021 Jun;44(6):1788-1801. doi: 10.1111/pce.14009. Epub 2021 Mar 22.

DOI:10.1111/pce.14009
PMID:33506954
Abstract

Heat shock factor A1 (HsfA1) family proteins are the master regulators of the heat stress-responsive transcriptional cascade in Arabidopsis. Although 70 kDa heat shock proteins (HSP70s) are known to participate in repressing HsfA1 activity, the mechanisms by which they regulate HsfA1 activity have not been clarified. Here, we report the physiological functions of three cytosolic HSP70s, HSC70-1, HSC70-2 and HSC70-3, under normal and stress conditions. Expression of the HSC70 genes was observed in whole seedlings, and the HSC70 proteins were observed in the cytoplasm and nucleus under normal and stress conditions, as were the HsfA1s. hsc70-1/2 double and hsc70-1/2/3 triple mutants showed higher thermotolerance than the wild-type (WT) plants. Transcriptomic analysis revealed the upregulation of heat stress-responsive HsfA1-downstream genes in hsc70-1/2/3 mutants under normal growth conditions, demonstrating that these HSC70s redundantly function as repressors of HsfA1 activity. Furthermore, hsc70-1/2/3 plants showed a more severe growth delay during the germination stage than the WT plants under high-salt stress conditions, and many seed-specific cluster 2 genes that exhibited suppressed expression during germination were expressed in hsc70-1/2/3 plants, suggesting that these HSC70s also function in the developmental transition from seed to seedling under high-salt conditions by suppressing the expression of cluster 2 genes.

摘要

热休克因子 A1(HsfA1)家族蛋白是拟南芥热应激反应转录级联的主要调节因子。虽然 70kDa 热休克蛋白(HSP70s)已知参与抑制 HsfA1 活性,但它们调节 HsfA1 活性的机制尚未阐明。在这里,我们报告了三种胞质 HSP70s(HSC70-1、HSC70-2 和 HSC70-3)在正常和应激条件下的生理功能。在整个幼苗中观察到 HSC70 基因的表达,在正常和应激条件下观察到 HSC70 蛋白在细胞质和核内,HsfA1s 也是如此。hsc70-1/2 双突变体和 hsc70-1/2/3 三突变体比野生型(WT)植物具有更高的耐热性。转录组分析显示,在正常生长条件下,hsc70-1/2/3 突变体中热应激响应的 HsfA1 下游基因上调,表明这些 HSC70s 作为 HsfA1 活性的抑制剂具有冗余功能。此外,在高盐胁迫条件下,hsc70-1/2/3 植物在萌发阶段的生长延迟比 WT 植物更为严重,并且在萌发过程中表达受到抑制的许多种子特异性簇 2 基因在 hsc70-1/2/3 植物中表达,表明这些 HSC70s 还通过抑制簇 2 基因的表达在高盐条件下从种子到幼苗的发育转变中发挥作用。

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