叶绿体小分子热激蛋白 HSP21 与质体核蛋白 pTAC5 相互作用,对于拟南芥在热胁迫下的叶绿体发育是必需的。
Chloroplast small heat shock protein HSP21 interacts with plastid nucleoid protein pTAC5 and is essential for chloroplast development in Arabidopsis under heat stress.
机构信息
Photosynthesis Research Center, Key Laboratory of Photobiology, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China.
出版信息
Plant Cell. 2013 Aug;25(8):2925-43. doi: 10.1105/tpc.113.111229. Epub 2013 Aug 6.
Abstract
Compared with small heat shock proteins (sHSPs) in other organisms, those in plants are the most abundant and diverse. However, the molecular mechanisms by which sHSPs are involved in cell protection remain unknown. Here, we characterized the role of HSP21, a plastid nucleoid-localized sHSP, in chloroplast development under heat stress. We show that an Arabidopsis thaliana knockout mutant of HSP21 had an ivory phenotype under heat stress. Quantitative real-time RT-PCR, run-on transcription, RNA gel blot, and polysome association analyses demonstrated that HSP21 is involved in plastid-encoded RNA polymerase (PEP)-dependent transcription. We found that the plastid nucleoid protein pTAC5 was an HSP21 target. pTAC5 has a C4-type zinc finger similar to that of Escherichia coli DnaJ and zinc-dependent disulfide isomerase activity. Reduction of pTAC5 expression by RNA interference led to similar phenotypic effects as observed in hsp21. HSP21 and pTAC5 formed a complex that was associated mainly with the PEP complex. HSP21 and pTAC5 were associated with the PEP complex not only during transcription initiation, but also during elongation and termination. Our results suggest that HSP21 and pTAC5 are required for chloroplast development under heat stress by maintaining PEP function.
摘要
与其他生物体中的小热休克蛋白 (sHSP) 相比,植物中的 sHSP 最为丰富多样。然而,sHSP 参与细胞保护的分子机制尚不清楚。在这里,我们研究了定位于质体类核的 sHSP HSP21 在热应激下参与叶绿体发育的作用。我们发现 HSP21 的拟南芥敲除突变体在热应激下表现出象牙色表型。实时定量 RT-PCR、转录启动子分析、RNA 凝胶印迹和多核糖体关联分析表明,HSP21 参与质体编码 RNA 聚合酶 (PEP) 依赖性转录。我们发现质体类核蛋白 pTAC5 是 HSP21 的靶标。pTAC5 具有与大肠杆菌 DnaJ 相似的 C4 型锌指和锌依赖性二硫键异构酶活性。通过 RNA 干扰减少 pTAC5 的表达会导致与 hsp21 观察到的类似表型效应。HSP21 和 pTAC5 形成一个复合物,主要与 PEP 复合物相关。HSP21 和 pTAC5 与 PEP 复合物的结合不仅发生在转录起始时,而且发生在延伸和终止时。我们的结果表明,HSP21 和 pTAC5 通过维持 PEP 功能,对热应激下的叶绿体发育是必需的。
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