通过改变长程库仑相互作用提高蛋白质稳定性。

Increasing protein stability by altering long-range coulombic interactions.

作者信息

Grimsley G R, Shaw K L, Fee L R, Alston R W, Huyghues-Despointes B M, Thurlkill R L, Scholtz J M, Pace C N

机构信息

Department of Medical Biochemistry and Genetics, Texas A&M University, College Station 77843-1114, USA.

出版信息

Protein Sci. 1999 Sep;8(9):1843-9. doi: 10.1110/ps.8.9.1843.

DOI:10.1110/ps.8.9.1843

PMID:10493585

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2144408/

Abstract

It is difficult to increase protein stability by adding hydrogen bonds or burying nonpolar surface. The results described here show that reversing the charge on a side chain on the surface of a protein is a useful way of increasing stability. Ribonuclease T1 is an acidic protein with a pI approximately 3.5 and a net charge of approximately -6 at pH 7. The side chain of Asp49 is hyperexposed, not hydrogen bonded, and 8 A from the nearest charged group. The stability of Asp49Ala is 0.5 kcal/mol greater than wild-type at pH 7 and 0.4 kcal/mol less at pH 2.5. The stability of Asp49His is 1.1 kcal/mol greater than wild-type at pH 6, where the histidine 49 side chain (pKa = 7.2) is positively charged. Similar results were obtained with ribonuclease Sa where Asp25Lys is 0.9 kcal/mol and Glu74Lys is 1.1 kcal/mol more stable than the wild-type enzyme. These results suggest that protein stability can be increased by improving the coulombic interactions among charged groups on the protein surface. In addition, the stability of RNase T1 decreases as more hydrophobic aromatic residues are substituted for Ala49, indicating a reverse hydrophobic effect.

摘要

通过添加氢键或掩埋非极性表面来提高蛋白质稳定性是困难的。此处描述的结果表明，逆转蛋白质表面侧链上的电荷是提高稳定性的一种有效方法。核糖核酸酶T1是一种酸性蛋白质，其pI约为3.5，在pH 7时净电荷约为-6。天冬氨酸49的侧链高度暴露，没有氢键作用，且距离最近的带电基团8埃。在pH 7时，天冬氨酸49突变为丙氨酸的稳定性比野生型高0.5千卡/摩尔，在pH 2.5时低0.4千卡/摩尔。在pH 6时，天冬氨酸49突变为组氨酸的稳定性比野生型高1.1千卡/摩尔，此时组氨酸49侧链（pKa = 7.2）带正电荷。核糖核酸酶Sa也得到了类似的结果，其中天冬氨酸25突变为赖氨酸比野生型酶稳定0.9千卡/摩尔，谷氨酸74突变为赖氨酸比野生型酶稳定1.1千卡/摩尔。这些结果表明，通过改善蛋白质表面带电基团之间的库仑相互作用可以提高蛋白质稳定性。此外，随着更多疏水芳香族残基取代丙氨酸49，核糖核酸酶T1的稳定性降低，表明存在反向疏水效应。

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