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Phd阻遏蛋白-抗毒素边界的表征

Characterization of the Phd repressor-antitoxin boundary.

作者信息

McKinley James Estle, Magnuson Roy David

机构信息

Department of Biological Sciences, University of Alabama in Huntsville, Wilson Hall, Room 258, 301 Sparkman Dr., Huntsville, AL 35758, USA.

出版信息

J Bacteriol. 2005 Jan;187(2):765-70. doi: 10.1128/JB.187.2.765-770.2005.

DOI:10.1128/JB.187.2.765-770.2005
PMID:15629948
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC543551/
Abstract

The P1 plasmid addiction operon (a classic toxin-antitoxin system) encodes Phd, an unstable 73-amino-acid repressor-antitoxin protein, and Doc, a stable toxin. It was previously shown by deletion analysis that the N terminus of Phd was required for repressor activity and that the C terminus was required for antitoxin activity. Since only a quarter of the protein or less was required for both activities, it was hypothesized that Phd might have a modular organization. To further test the modular hypothesis, we constructed and characterized a set of 30 point mutations in the third and fourth quarters of Phd. Four mutations (PhdA36H, V37A, I38A, and F44A) had major defects in repressor activity. Five mutations (PhdD53A, D53R, E55A, F56A, and F60A) had major defects in antitoxin activity. As predicted by the modular hypothesis, point mutations affecting each activity belonged to disjoint, rather than overlapping, sets and were separated rather than interspersed within the linear sequence. A final deletion experiment demonstrated that the C-terminal 24 amino acid residues of Phd (preceded by a methionine) retained full antitoxin activity.

摘要

P1质粒成瘾操纵子(一种经典的毒素-抗毒素系统)编码Phd,一种不稳定的73个氨基酸的阻遏蛋白-抗毒素蛋白,以及Doc,一种稳定的毒素。先前通过缺失分析表明,Phd的N端是阻遏活性所必需的,而C端是抗毒素活性所必需的。由于两种活性所需的蛋白质仅占四分之一或更少,因此推测Phd可能具有模块化结构。为了进一步验证模块化假说,我们构建并表征了一组位于Phd第三和第四部分的30个点突变。四个突变(PhdA36H、V37A、I38A和F44A)在阻遏活性方面存在主要缺陷。五个突变(PhdD53A、D53R、E55A、F56A和F60A)在抗毒素活性方面存在主要缺陷。正如模块化假说所预测的,影响每种活性的点突变属于不相交而非重叠的集合,并且在线性序列中是分开的而非穿插的。最后的缺失实验表明,Phd的C端24个氨基酸残基(前面有一个甲硫氨酸)保留了完整的抗毒素活性。

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