生物素化5'-腺苷酸：在大肠杆菌K-12生物素基因调控中的共抑制作用。

Biotinyl 5'-adenylate: corepressor role in the regulation of the biotin genes of Escherichia coli K-12.

作者信息

Prakash O, Eisenberg M A

出版信息

Proc Natl Acad Sci U S A. 1979 Nov;76(11):5592-5. doi: 10.1073/pnas.76.11.5592.

DOI:10.1073/pnas.76.11.5592

PMID:392507

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC411695/

Abstract

A DNA filter-binding technique was used to study the interaction of the biotin repressor and operator site. From a biotin saturation curve, the concentration for half-maximal binding (K0.5) was calculated to be 1 microM. However, in a similar study with the in vitro coupled transcription-translation system in which biotin served as the corepressor, the K0.5 for repression was 7.1 nM. This marked difference of over 2 orders of magnitude was attributed to the activation of biotin by the partially purified repressor preparation in the in vitro system. The activated product formed from biotin, ATP, and repressor preparation was identified as biotinyl 5'-adenylate by paper chromatography and hydroxamic acid formation. Synthetic biotinyl 5'-adenylate was as effective as biotin in the in vitro system (K0.5, 10 nM) and much more effective than biotin in the DNA-binding assay (K0.5 1.1 nM versus 1 microM). These studies indicate that biotinyl 5'-adenylate has a more direct role in the regulation of the biotin genes than does biotin per se.

摘要

采用DNA滤膜结合技术研究生物素阻遏物与操纵位点的相互作用。根据生物素饱和曲线，计算出半数最大结合浓度（K0.5）为1微摩尔/升。然而，在一项类似研究中，使用生物素作为辅阻遏物的体外偶联转录-翻译系统，阻遏作用的K0.5为7.1纳摩尔/升。超过2个数量级的显著差异归因于体外系统中部分纯化的阻遏物制剂对生物素的激活作用。通过纸层析和异羟肟酸形成鉴定出由生物素、ATP和阻遏物制剂形成的活化产物为生物素基5'-腺苷酸。合成的生物素基5'-腺苷酸在体外系统中与生物素效果相同（K0.5，10纳摩尔/升），在DNA结合试验中比生物素更有效（K0.5分别为1.1纳摩尔/升和1微摩尔/升）。这些研究表明，生物素基5'-腺苷酸在生物素基因调控中比生物素本身具有更直接的作用。

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