Australian Research Council Centre of Excellence in Plant Energy Biology, University of Western Australia, Crawley, Western Australia 6009, Australia.
Plant Cell. 2010 Dec;22(12):3921-34. doi: 10.1105/tpc.110.074518. Epub 2010 Dec 23.
Diurnal regulation of transcripts encoding proteins located in mitochondria, plastids, and peroxisomes is important for adaptation of organelle biogenesis and metabolism to meet cellular requirements. We show this regulation is related to diurnal changes in promoter activities and the presence of specific cis-acting regulatory elements in the proximal promoter region [TGGGC(C/T)], previously defined as site II elements, and leads to diurnal changes in organelle protein abundances. These site II elements can act both as activators or repressors of transcription, depending on the night/day period and on the number and arrangement of site II elements in the promoter tested. These elements bind to the TCP family of transcriptions factors in Arabidopsis thaliana, which nearly all display distinct diurnal patterns of cycling transcript abundance. TCP2, TCP3, TCP11, and TCP15 were found to interact with different components of the core circadian clock in both yeast two-hybrid and direct protein-protein interaction assays, and tcp11 and tcp15 mutant plants showed altered transcript profiles for a number of core clock components, including LATE ELONGATED HYPOCOTYL1 and PSEUDO RESPONSE REGULATOR5. Thus, site II elements in the promoter regions of genes encoding mitochondrial, plastid, and peroxisomal proteins provide a direct mechanism for the coordination of expression for genes involved in a variety of organellar functions, including energy metabolism, with the time-of-day specific needs of the organism.
昼夜节律调节位于线粒体、质体和过氧化物酶体中的蛋白质编码转录本对于适应细胞器生物发生和代谢以满足细胞需求非常重要。我们表明,这种调节与启动子活性的昼夜变化以及近端启动子区域中特定顺式作用调节元件(以前定义为 II 类元件)的存在有关,这导致了细胞器蛋白丰度的昼夜变化。这些 II 类元件可以作为转录的激活剂或抑制剂发挥作用,具体取决于昼夜时期以及测试启动子中 II 类元件的数量和排列。这些元件与拟南芥中的 TCP 转录因子家族结合,该家族几乎都显示出明显的昼夜循环转录丰度模式。在酵母双杂交和直接蛋白质-蛋白质相互作用测定中,发现 TCP2、TCP3、TCP11 和 TCP15 与核心生物钟的不同成分相互作用,并且 tcp11 和 tcp15 突变体植物显示出许多核心时钟组件的转录谱发生改变,包括 LATE ELONGATED HYPOCOTYL1 和 PSEUDO RESPONSE REGULATOR5。因此,编码线粒体、质体和过氧化物酶体蛋白的基因启动子区域中的 II 类元件为协调与生物体特定时间需求相关的各种细胞器功能(包括能量代谢)的基因表达提供了直接机制。