酵母蛋白质合成。高活性无细胞体系的制备与分析。

Yeast protein synthesis. Preparation and analysis of a highly active cell-free system.

作者信息

Sissons C H

出版信息

Biochem J. 1974 Oct;144(1):131-40. doi: 10.1042/bj1440131.

DOI:10.1042/bj1440131

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1168473/

Abstract

A detailed description is given of the techniques for preparing, handling and assaying a cell-free protein-synthesizing system from yeast, analogous to crude (S-30) Escherichia coli extracts. Its basic characteristics are described. The rate of poly(U)-directed polyphenylalanine synthesis was at least fivefold higher than in previously reported yeast cell-free systems, approaching that of crude mammalian cell-free systems. Fractionation of the S-30 extracts lowered activity. Organelles and their fragments present in the S-30 extract neither contributed to nor inhibited cytoplasmic protein synthesis. There was a component localized in the high-speed supernatant that caused an inhibition of polyphenylalanine synthesis. Poly(U) programmed the synthesis of long-chain polyphenylalanine, in contrast with the only other yeast system in which this has been examined (Bretthauer & Golichowski, 1968). Preincubation techniques inactivated the system and probably a small proportion only of the ribosomes was active.

摘要

本文详细描述了从酵母中制备、处理和检测无细胞蛋白质合成系统的技术，该系统类似于大肠杆菌粗提物（S-30）。文中描述了其基本特性。聚（U）指导的聚苯丙氨酸合成速率比先前报道的酵母无细胞系统至少高五倍，接近粗制哺乳动物无细胞系统的合成速率。对S-30提取物进行分级分离会降低活性。S-30提取物中存在的细胞器及其碎片对细胞质蛋白质合成既无促进作用也无抑制作用。高速上清液中存在一种成分，可抑制聚苯丙氨酸的合成。与另一个唯一检测过此现象的酵母系统（Bretthauer和Golichowski，1968）不同，聚（U）可指导长链聚苯丙氨酸的合成。预孵育技术会使系统失活，并且可能只有一小部分核糖体具有活性。

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