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一种对艾氏腹水瘤细胞中真核起始因子2循环至关重要的GDP/GTP交换因子及其受真核起始因子2磷酸化的调控。

A GDP/GTP exchange factor essential for eukaryotic initiation factor 2 cycling in Ehrlich ascites tumor cells and its regulation by eukaryotic initiation factor 2 phosphorylation.

作者信息

Panniers R, Henshaw E C

出版信息

J Biol Chem. 1983 Jul 10;258(13):7928-34.

PMID:6553052
Abstract

Formation of the ternary complex Met-tRNAi X eukaryotic initiation factor (eIF) 2 X GTP from eIF-2 X GDP requires exchange of GDP for GTP. However, at physiological Mg2+ concentrations, GDP is released from eIF-2 exceedingly slowly (Clemens, M.J., Pain, V.M., Wong, S.T., and Henshaw, E.C. (1982) Nature (Lond.) 296, 93-95). However, GDP is released rapidly from impure eIF-2 preparations, indicating the presence of a GDP/GTP exchange factor. We have now purified this factor from Ehrlich cells and refer to it as GEF. CM-Sephadex chromatography of ribosomal salt wash separated two peaks of eIF-2 activity. GEF was found in association with eIF-2 in the first peak and co-purified with eIF-2 under low salt conditions. It was separated from eIF-2 in high salt buffers and further purified on hydroxylapatite and phosphocellulose. Gel electrophoresis of our purest preparations showed major bands at 85, 67, 52, 37, 27, and 21 kDa. Purified GEF increased the rate of exchange of [32P] GDP for unlabeled GDP 25-fold but did not function with phosphorylated eIF-2 (alpha subunit). The factor also stimulated markedly the rate of ternary complex formation using eIF-2 X GDP as substrate with GTP and Met-tRNAi but not using phosphorylated eIF-2 X GDP as substrate. eIF-2 is released from the 80 S initiation complex with hydrolysis of GTP. If eIF-2 X GDP is actually the complex released, then GEF is absolutely required for eIF-2 to cycle and it is therefore a new eukaryotic initiation factor. Furthermore, the inability of GEF to utilize eIF-2 (alpha P) X GDP explains how phosphorylation of eIF-2 can inhibit polypeptide chain initiation.

摘要

由eIF-2·GDP形成三元复合物甲硫氨酰 - tRNAi·真核起始因子(eIF)2·GTP需要将GDP置换为GTP。然而,在生理镁离子浓度下,GDP从eIF-2的释放极其缓慢(克莱门斯,M.J.,佩恩,V.M.,黄,S.T.,和亨肖,E.C.(1982年)《自然》(伦敦)296,93 - 95)。然而,GDP从不纯的eIF-2制剂中快速释放,这表明存在GDP / GTP交换因子。我们现已从艾氏腹水癌细胞中纯化出该因子,并将其称为GEF。核糖体盐洗物的CM - 葡聚糖凝胶层析分离出两个eIF-2活性峰。在第一个峰中发现GEF与eIF-2相关联,并在低盐条件下与eIF-2共纯化。它在高盐缓冲液中与eIF-2分离,并在羟基磷灰石和磷酸纤维素上进一步纯化。我们最纯制剂的凝胶电泳显示在85、67、52、37、27和21 kDa处有主要条带。纯化的GEF使[32P]GDP与未标记GDP的交换速率提高了25倍,但对磷酸化的eIF-2(α亚基)不起作用。该因子还以eIF-2·GDP为底物,与GTP和甲硫氨酰 - tRNAi一起显著刺激三元复合物的形成速率,但以磷酸化的eIF-2·GDP为底物时则不然。随着GTP水解,eIF-2从80S起始复合物中释放。如果实际释放的复合物是eIF-2·GDP,那么GEF对于eIF-2循环是绝对必需的,因此它是一种新的真核起始因子。此外,GEF无法利用eIF-2(αP)·GDP解释了eIF-2的磷酸化如何抑制多肽链起始。

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