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苯丙氨酸 171 是人类 DNA 聚合酶 κ 跨苯并[a]芘-鸟嘌呤加合物进行跨损伤合成的分子刹车。

Phenylalanine 171 is a molecular brake for translesion synthesis across benzo[a]pyrene-guanine adducts by human DNA polymerase kappa.

机构信息

Division of Genetics and Mutagenesis, National Institute of Health Sciences, 1-18-1 Kamiyoga, Setagaya-ku, Tokyo 158-8501, Japan.

出版信息

Mutat Res. 2011 Jan 10;718(1-2):10-7. doi: 10.1016/j.mrgentox.2010.11.002. Epub 2010 Nov 13.

DOI:10.1016/j.mrgentox.2010.11.002
PMID:21078407
Abstract

Human cells possess multiple specialized DNA polymerases (Pols) that bypass a variety of DNA lesions which otherwise would block chromosome replication. Human polymerase kappa (Pol κ) bypasses benzo[a]pyrene diolepoxide-N(2)-deoxyguanine (BPDE-N(2)-dG) DNA adducts in an almost error-free manner. To better understand the relationship between the structural features in the active site and lesion bypass by Pol κ, we mutated codons corresponding to amino acids appearing close to the adducts in the active site, and compared bypass efficiencies. Remarkably, the substitution of alanine for phenylalanine 171 (F171), an amino acid conserved between Pol κ and its bacterial counterpart Escherichia coli DinB, enhanced the efficiencies of dCMP incorporation opposite (-)- and (+)-trans-anti-BPDE-N(2)-dG 18-fold. This substitution affected neither the fidelity of TLS nor the efficiency of dCMP incorporation opposite normal guanine. This amino acid change also enhanced the binding affinity of Pol κ to template/primer DNA containing (-)-trans-anti-BPDE-N(2)-dG. These results suggest that F171 functions as a molecular brake for TLS across BPDE-N(2)-dG by Pol κ and that the F171A derivative of Pol κ bypasses these DNA lesions more actively than does the wild-type enzyme.

摘要

人类细胞拥有多种专门的 DNA 聚合酶(Pols),它们可以绕过多种会阻碍染色体复制的 DNA 损伤。人类聚合酶 κ(Pol κ)可以近乎无差错地绕过苯并[a]芘二环氧化物-N(2)-脱氧鸟苷(BPDE-N(2)-dG)DNA 加合物。为了更好地理解活性位点中的结构特征与 Pol κ 绕过损伤之间的关系,我们突变了对应于活性位点中靠近加合物的氨基酸的密码子,并比较了绕过效率。值得注意的是,将苯丙氨酸 171(F171)替换为丙氨酸,F171 是 Pol κ 和其细菌对应物大肠杆菌 DinB 之间保守的氨基酸,将 dCMP 掺入 (-)-和 (+)-反式-anti-BPDE-N(2)-dG 的效率提高了 18 倍。这种取代既不影响 TLS 的保真度,也不影响正常鸟嘌呤的 dCMP 掺入效率。这种氨基酸变化也增强了 Pol κ 与含有 (-)-trans-anti-BPDE-N(2)-dG 的模板/引物 DNA 的结合亲和力。这些结果表明,F171 作为 Pol κ 跨越 BPDE-N(2)-dG 的 TLS 的分子刹车,并且 Pol κ 的 F171A 衍生物比野生型酶更积极地绕过这些 DNA 损伤。

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