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重新设计蛋白质的pKa值。

Redesigning protein pKa values.

作者信息

Tynan-Connolly Barbara Mary, Nielsen Jens Erik

机构信息

School of Biomolecular and Biomedical Science, Centre for Synthesis and Chemical Biology, UCD Conway Institute, University College Dublin, Belfield, Dublin 4, Ireland.

出版信息

Protein Sci. 2007 Feb;16(2):239-49. doi: 10.1110/ps.062538707. Epub 2006 Dec 22.

DOI:10.1110/ps.062538707
PMID:17189477
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2203286/
Abstract

The ability to re-engineer enzymatic pH-activity profiles is of importance for industrial applications of enzymes. We theoretically explore the feasibility of re-engineering enzymatic pH-activity profiles by changing active site pK(a) values using point mutations. We calculate the maximum achievable DeltapK(a) values for 141 target titratable groups in seven enzymes by introducing conservative net-charge altering point mutations. We examine the importance of the number of mutations introduced, their distance from the target titratable group, and the characteristics of the target group itself. The results show that multiple mutations at 10A can change pK(a) values up to two units, but that the introduction of a requirement to keep other pK(a) values constant reduces the magnitude of the achievable DeltapK(a). The algorithm presented shows a good correlation with existing experimental data and is available for download and via a web server at http://enzyme.ucd.ie/pKD.

摘要

重新设计酶的pH活性曲线的能力对于酶的工业应用至关重要。我们从理论上探讨了通过点突变改变活性位点pKa值来重新设计酶的pH活性曲线的可行性。我们通过引入保守的净电荷改变点突变,计算了七种酶中141个目标可滴定基团的最大可实现ΔpKa值。我们研究了引入的突变数量、它们与目标可滴定基团的距离以及目标基团本身的特性的重要性。结果表明,在10Å处的多个突变可将pKa值改变多达两个单位,但引入保持其他pKa值恒定的要求会降低可实现的ΔpKa的幅度。所提出的算法与现有的实验数据具有良好的相关性,可通过http://enzyme.ucd.ie/pKD进行下载并通过网络服务器获取。

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