The calmodulin‐binding protein kinase 3 is part of heat‐shock signal transduction in Arabidopsis thaliana

信号转导 热休克蛋白 生物 钙调蛋白 转录因子 分子生物学 细胞生物学 激酶 拟南芥 磷酸化 热冲击系数 异位表达 基因 生物化学 突变体 热休克蛋白70
作者
Hongtao Liu,Fei Gao,Guoliang Li,Jinlong Han,De‐Long Liu,Daye Sun,Ren‐Gang Zhou
出处
期刊:Plant Journal [Wiley]
卷期号:55 (5): 760-773 被引量:241
标识
DOI:10.1111/j.1365-313x.2008.03544.x
摘要

Summary Based on our previous findings, we proposed a pathway for the participation of Ca 2+ /calmodulin (CaM) in heat‐shock (HS) signal transduction. The specific mechanism by which CaM regulates activation of heat‐shock transcription factors (HSFs) is not known. CaM‐binding protein kinases (CBK) are the most poorly understood of the CaM target proteins in plants. In this study, using a yeast two‐hybrid assay, we found that AtCBK3 interacts with AtHSFA1a. Fluorescence resonance energy transfer was used to confirm the interaction between AtCBK3–YFP and AtHSFA1a–CFP. Furthermore, we demonstrate that purified recombinant AtCBK3 phosphorylated recombinant AtHSFA1a in vitro . We also describe the results of both downregulation of AtCBK3 expression and ectopic overexpression in Arabidopsis thaliana . The T‐DNA insertion AtCBK3 knockout lines had impaired basal thermotolerance, which could be complemented by transformation of plants with the native gene. Overexpression of AtCBK3 resulted in plants with increased basal thermotolerance. Results from real‐time quantitative PCR and protein gel‐blot analyses suggest that AtCBK3 regulates transcription of heat‐shock protein (HSP) genes and synthesis of HSPs. The binding activity of HSF to the heat‐shock element (HSE), the mRNA level of HSP genes and synthesis of HSPs were upregulated in AtCBK3‐overexpressing lines after HS, but downregulated in AtCBK3 null lines. These results indicate that AtCBK3 controls the binding activity of HSFs to HSEs by phosphorylation of AtHSFA1a, and is an important component of the HS signal transduction pathway.
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