酿酒酵母中的蛋白质合成。协同真核起始因子2A和“mRNA结合因子”的纯化及其在甲硫氨酰 - tRNAf·40S·mRNA复合物形成中作用的研究。

Protein synthesis in yeast Saccharomyces cerevisiae. Purification of Co-eIF-2A and 'mRNA-binding factor(s)' and studies of their roles in Met-tRNAf.40S.mRNA complex formation.

作者信息

Nasrin N, Ahmad M F, Nag M K, Tarburton P, Gupta N K

出版信息

Eur J Biochem. 1986 Nov 17;161(1):1-6. doi: 10.1111/j.1432-1033.1986.tb10116.x.

DOI:10.1111/j.1432-1033.1986.tb10116.x

Abstract

Antibodies prepared against a homogeneous preparation of Co-eIF-2A20 [Ahmad et al. (1985) J. Biol. Chem. 260, 6955-6959] reacted with several polypeptides including an 80-kDa polypeptide present in a crude yeast ribosomal salt wash. This 80-kDa polypeptide, containing Co-eIF-2A (Co-eIF-2A80) activity, has been extensively purified using a two-step purification procedure involving an immunoaffinity column chromatograph prepared using antibodies against Co-eIF-2A20 (fraction II) and hydroxyapatite chromatography (fraction III). The factors, eIF-2 + homogeneous Co-eIF-2A80 (fraction III) promoted Met-tRNAf.40S complex formation with an AUG codon but not with a physiological mRNA or a polyribonucleotide messenger poly(U,G) whereas eIF-2 + a partially purified Co-eIF-2A80 preparation (fraction II) promoted Met-tRNAf.40S complex formation with an AUG codon as well as with globin mRNA and poly(U,G) messenger. This factor-promoted Met-tRNAf binding to 40S ribosomes depends absolutely on the presence of a polyribonucleotide messenger containing an initiation codon (such as AUG or GUG). Other polyribonucleotide messengers tested, such as poly(U), poly(A) and poly(A,C) were completely ineffective in this binding reaction. This result indicates that the Met-tRNAf.40S.mRNA complex is formed by a direct interaction between Met-tRNAf, 40S ribosomes and the initiation site in mRNA. A mechanism has been proposed for Met-tRNAf.40S.mRNA complex formation in yeast.

摘要

针对Co-eIF-2A20的纯化物制备的抗体[艾哈迈德等人（1985年），《生物化学杂志》260卷，6955 - 6959页]与几种多肽发生反应，包括粗制酵母核糖体盐洗物中存在的一种80 kDa多肽。这种具有Co-eIF-2A（Co-eIF-2A80）活性的80 kDa多肽，已通过两步纯化程序进行了广泛纯化，该程序包括使用针对Co-eIF-2A20制备的免疫亲和柱色谱（组分II）和羟基磷灰石色谱（组分III）。这些因子，即eIF-2 + 纯的Co-eIF-2A80（组分III）促进了Met-tRNAf与40S核糖体形成AUG密码子复合物，但不能与生理性mRNA或多聚核苷酸信使poly（U，G）形成复合物，而eIF-2 + 部分纯化的Co-eIF-2A80制剂（组分II）促进了Met-tRNAf与40S核糖体形成AUG密码子复合物，以及与珠蛋白mRNA和poly（U，G）信使形成复合物。这种因子促进的Met-tRNAf与40S核糖体的结合绝对依赖于含有起始密码子（如AUG或GUG）的多聚核苷酸信使的存在。所测试的其他多聚核苷酸信使，如poly（U）、poly（A）和poly（A，C）在这种结合反应中完全无效。这一结果表明，Met-tRNAf.40S.mRNA复合物是由Met-tRNAf、40S核糖体和mRNA中的起始位点之间的直接相互作用形成的。已提出了一种酵母中Met-tRNAf.40S.mRNA复合物形成的机制。