12 The eIF2α Kinases

T. Dever, A. Dar, F. Sicheri
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引用次数: 9

Abstract

Perhaps the best-characterized mechanism of translational control in eukaryotic cells involves phosphorylation of eukaryotic translation initiation factor eIF2. As described in Chapters 4 and 9, eIF2, consisting of three subunits, α, β, and γ, specifically binds the initiator methionyl-tRNA (Met-tRNA i Met ) in a GTP-dependent manner and delivers this essential component of translation initiation to the small ribosomal subunit. The γ-subunit of eIF2 is responsible for GTP binding, and like other GTP-binding proteins, eIF2 cycles between its GTP-bound state and its GDP-bound state. The recycling of inactive eIF2•GDP to active eIF2•GTP is catalyzed by the guanine nucleotide exchange factor eIF2B. It is this recycling reaction that is regulated by phosphorylation of eIF2. Phosphorylation of Ser-51 in mature eIF2α converts eIF2 from a substrate to a competitive inhibitor of eIF2B. (It is noteworthy that according to the DNA sequence, the phosphorylation site in eIF2α is Ser-52. However, because the initiating Met of eIF2α is posttranslationally cleaved, the phosphorylated residue is Ser-51 in the mature protein.) This phosphorylation of eIF2α enhances its interaction with a trimeric regulatory eIF2Bαβδ subcomplex that can be biochemically separated from the pentameric eIF2B complex (Chapter 9). In all cells examined, the amount of eIF2B is limiting compared to the amount of eIF2. As a consequence, phosphorylation of a small percentage of eIF2α results in the apparent sequestration of eIF2B in inactive phosphorylated eIF2•eIF2B complexes and in the inhibition of protein synthesis. Initially, eIF2 phosphorylation was linked to the shut-off of protein synthesis in heme-deprived or double-stranded RNA (dsRNA)-treated rabbit...
12 eIF2α激酶
也许真核细胞中翻译控制最具特征的机制涉及真核翻译起始因子eIF2的磷酸化。如第4章和第9章所述,eIF2由三个亚基,α, β和γ组成,以gtp依赖的方式特异性地结合启动物甲硫基trna (Met- trna i Met),并将翻译起始的重要组成部分传递给小核糖体亚基。eIF2的γ-亚基负责GTP结合,与其他GTP结合蛋白一样,eIF2在GTP结合状态和gdp结合状态之间循环。在鸟嘌呤核苷酸交换因子eIF2B的催化下,无活性eIF2•GDP再循环为有活性的eIF2•GTP。正是这种循环反应受到eIF2磷酸化的调控。成熟eIF2α中Ser-51的磷酸化将eIF2从底物转化为eIF2B的竞争性抑制剂。(值得注意的是,根据DNA序列,eIF2α的磷酸化位点为Ser-52。然而,由于eIF2α的起始Met是翻译后切割的,因此在成熟蛋白中磷酸化的残基是Ser-51。eIF2α的磷酸化增强了其与三聚体调节eIF2Bαβδ亚复合物的相互作用,该亚复合物可以从五聚体eIF2B复合物中生化分离出来(第9章)。在所有检测的细胞中,与eIF2的量相比,eIF2B的量是有限的。因此,一小部分eIF2α的磷酸化导致eIF2B在无活性磷酸化的eIF2•eIF2B复合物中明显被隔离,并抑制蛋白质合成。最初,eIF2磷酸化与血红素剥夺或双链RNA (dsRNA)处理家兔的蛋白质合成关闭有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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