CAMTA3 转录因子的磷酸化触发其不稳定和核输出。
Phosphorylation of the CAMTA3 Transcription Factor Triggers Its Destabilization and Nuclear Export.
机构信息
Department for Biochemistry of Plant Interactions, Leibniz Institute of Plant Biochemistry, Halle/Saale 06120, Germany.
Proteome Analytics, Leibniz Institute of Plant Biochemistry, Halle/Saale 06120, Germany.
出版信息
Plant Physiol. 2020 Oct;184(2):1056-1071. doi: 10.1104/pp.20.00795. Epub 2020 Aug 7.
Abstract
The Arabidopsis () calmodulin-binding transcription activator3 (CAMTA3) is a repressor of immunity-related genes but an activator of cold-induced or general stress-responsive genes in plants. Post-transcriptional or posttranslational mechanisms have been proposed to control CAMTA3 functions in different stress responses. Here, we show that treatment with the bacterial flg22 elicitor induces CAMTA3 phosphorylation, which is accompanied by its destabilization and nuclear export. Two flg22-responsive mitogen-activated protein kinases (MAPKs), MPK3 and MPK6, directly phosphorylate CAMTA3, with the phospho-sites contributing to CAMTA3 degradation and suppression of downstream target gene expression. However, the flg22-induced nuclear export and phospho-mobility shift can still be observed for the CAMTA3 phospho-null variant of the MAPK-modified sites, suggesting additional flg22-responsive kinases might be involved. Taken together, we propose that flg22-induced CAMTA3 depletion facilitates de-repression of downstream defense target genes, which involves phosphorylation, increased protein turnover, and nucleo-cytoplasmic trafficking.
摘要
拟南芥钙调素结合转录激活因子 3(CAMTA3)在植物中是免疫相关基因的抑制剂,但却是冷诱导或一般应激响应基因的激活剂。已经提出了转录后或翻译后机制来控制 CAMTA3 在不同应激反应中的功能。在这里,我们表明,用细菌 flg22 诱导物处理会诱导 CAMTA3 磷酸化,这伴随着其不稳定性和核输出。两种 flg22 响应的丝裂原活化蛋白激酶(MAPK),MPK3 和 MPK6,直接磷酸化 CAMTA3,磷酸化位点有助于 CAMTA3 降解和抑制下游靶基因表达。然而,对于 MAPK 修饰位点的 CAMTA3 磷酸化缺失变体,仍然可以观察到 flg22 诱导的核输出和磷酸化迁移变化,这表明可能涉及其他 flg22 响应激酶。总之,我们提出 flg22 诱导的 CAMTA3 耗竭促进下游防御靶基因的去抑制,这涉及磷酸化、增加蛋白质周转和核质运输。
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