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孢子光产物裂合酶催化5R而非5S孢子光产物的特异性修复。

Spore photoproduct lyase catalyzes specific repair of the 5R but not the 5S spore photoproduct.

作者信息

Chandra Tilak, Silver Sunshine C, Zilinskas Egidijus, Shepard Eric M, Broderick William E, Broderick Joan B

机构信息

Department of Chemistry and Biochemistry and the Astrobiology Biogeocatalysis Research Center, Montana State University, Bozeman, Montana 59717, USA.

出版信息

J Am Chem Soc. 2009 Feb 25;131(7):2420-1. doi: 10.1021/ja807375c.

DOI:10.1021/ja807375c
PMID:19178276
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2709078/
Abstract

Bacterial spores are remarkable in their resistance to chemical and physical stresses, including exposure to UV radiation. The unusual UV resistance of bacterial spores is a result of the unique photochemistry of spore DNA, which results in accumulation of 5-thyminyl-5,6-dihydrothymine (spore photoproduct, or SP), coupled with the efficient repair of accumulated damage by the enzyme spore photoproduct lyase (SPL). SPL is a member of the radical AdoMet superfamily of enzymes, and utilizes an iron-sulfur cluster and S-adenosylmethionine to repair SP by a direct reversal mechanism initiated by H atom abstraction from C-6 of the thymine dimer. While two distinct diastereomers of SP (5R or 5S) could in principle be formed upon UV irradiation of bacterial spores, only the 5R configuration is possible for SP formed from adjacent thymines in double helical DNA, due to the constraints imposed by the DNA structure; the 5S configuration is possible in less well-defined DNA structures or as an interstrand cross-link. We report here results from HPLC and MS analysis of in vitro enzymatic assays on stereochemically defined SP substrates demonstrating that SPL specifically repairs only the 5R isomer of SP. The observation that 5R-SP, but not 5S-SP, is a substrate for SPL is consistent with the expectation that 5R is the SP isomer produced in vivo upon UV irradiation of bacterial spore DNA.

摘要

细菌孢子对化学和物理应激具有显著的抗性,包括暴露于紫外线辐射。细菌孢子不同寻常的抗紫外线能力源于孢子DNA独特的光化学性质,这导致了5-胸腺嘧啶基-5,6-二氢胸腺嘧啶(孢子光产物,或SP)的积累,同时孢子光产物裂解酶(SPL)能有效修复积累的损伤。SPL是自由基腺苷甲硫氨酸超家族酶的成员之一,它利用铁硫簇和S-腺苷甲硫氨酸,通过从胸腺嘧啶二聚体的C-6位提取氢原子引发的直接逆转机制来修复SP。虽然原则上细菌孢子经紫外线照射后可能形成两种不同的非对映异构体SP(5R或5S),但由于DNA结构的限制,对于由双螺旋DNA中相邻胸腺嘧啶形成的SP,只有5R构型是可能的;在定义不太明确的DNA结构中或作为链间交联时,5S构型是可能的。我们在此报告了对立体化学定义的SP底物进行体外酶促分析的HPLC和MS分析结果,表明SPL仅特异性修复SP的5R异构体。5R-SP是SPL的底物而5S-SP不是这一观察结果与以下预期一致:5R是细菌孢子DNA经紫外线照射后在体内产生的SP异构体。

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