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本文引用的文献

1
Genetic polymorphisms and micronucleus formation: a review of the literature.基因多态性与微核形成:文献综述
Mutat Res. 2008 Mar-Apr;658(3):215-33. doi: 10.1016/j.mrrev.2007.10.001. Epub 2007 Oct 22.
2
hOGG1(326), XRCC1(399) and XRCC3(241) polymorphisms influence micronucleus frequencies in human lymphocytes in vivo.hOGG1(326)、XRCC1(399)和XRCC3(241)基因多态性影响人体淋巴细胞体内微核频率。
Mutagenesis. 2008 Jan;23(1):35-41. doi: 10.1093/mutage/gem040. Epub 2007 Oct 29.
3
Pterygium and genetic polymorphism of DNA double strand break repair gene Ku70.翼状胬肉与DNA双链断裂修复基因Ku70的基因多态性
Mol Vis. 2007 Aug 15;13:1436-40.
4
SNP genotyping: technologies and biomedical applications.单核苷酸多态性基因分型:技术与生物医学应用
Annu Rev Biomed Eng. 2007;9:289-320. doi: 10.1146/annurev.bioeng.9.060906.152037.
5
Heritable susceptibility factors for the development of cancer.癌症发生的遗传易感性因素。
J Radiat Res. 2006;47 Suppl B:B13-7. doi: 10.1269/jrr.47.b13.
6
DNA damage repair and genetic polymorphisms: assessment of individual sensitivity and repair capacity.DNA损伤修复与基因多态性:个体敏感性与修复能力的评估
Int J Radiat Oncol Biol Phys. 2006 Oct 1;66(2):537-45. doi: 10.1016/j.ijrobp.2006.06.037.
7
Oxidative DNA damage in pterygium.翼状胬肉中的氧化性DNA损伤
Mol Vis. 2005 Jan 25;11:71-5.
8
Micronuclei in humans induced by exposure to low level of ionizing radiation: influence of polymorphisms in DNA repair genes.低剂量电离辐射暴露诱导的人类微核:DNA修复基因多态性的影响
Mutat Res. 2005 Feb 15;570(1):105-17. doi: 10.1016/j.mrfmmm.2004.10.007.
9
Are genetic polymorphisms in OGG1, XRCC1 and XRCC3 genes predictive for the DNA strand break repair phenotype and genotoxicity in workers exposed to low dose ionising radiations?OGG1、XRCC1和XRCC3基因中的遗传多态性能否预测低剂量电离辐射暴露工人的DNA链断裂修复表型和遗传毒性?
Mutat Res. 2004 Nov 22;556(1-2):169-81. doi: 10.1016/j.mrfmmm.2004.08.002.
10
Null type of glutathione S-transferase M1 polymorphism is associated with early onset pterygium.谷胱甘肽S-转移酶M1基因多态性的无效型与早发性翼状胬肉相关。
Mol Vis. 2004 Jul 15;10:458-61.

X射线修复交叉互补蛋白1(XRCC1)而非脱嘌呤/脱嘧啶核酸内切酶1(APE1)和8-羟基鸟嘌呤糖苷酶1(hOGG1)基因多态性是翼状胬肉的一个风险因素。

XRCC1, but not APE1 and hOGG1 gene polymorphisms is a risk factor for pterygium.

作者信息

Chen Pei-Liang, Yeh Kun-Tu, Tsai Yi-Yu, Koeh Hank, Liu Yu-Ling, Lee Huei, Cheng Ya-Wen

机构信息

Department of Pharmacy, Tungs' Taichung MetroHarbor Hospital, Taichung, Taiwan.

出版信息

Mol Vis. 2010 Jun 4;16:991-6.

PMID:20577654
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2890553/
Abstract

PURPOSE

Epidemiological evidence suggests that UV irradiation plays an important role in pterygium pathogenesis. UV irradiation can produce a wide range of DNA damage. The base excision repair (BER) pathway is considered the most important pathway involved in the repair of radiation-induced DNA damage. Based on previous studies, single-nucleotide polymorphisms (SNPs) in 8-oxoguanine glycosylase-1 (OGG1), X-ray repair cross-complementing-1 (XRCC1), and AP-endonuclease-1 (APE1) genes in the BER pathway have been found to affect the individual sensitivity to radiation exposure and induction of DNA damage. Therefore, we hypothesize that the genetic polymorphisms of these repair genes increase the risk of pterygium.

METHODS

XRCC1, APE1, and hOGG1 polymorphisms were studied using fluorescence-labeled Taq Man probes on 83 pterygial specimens and 206 normal controls.

RESULTS

There was a significant difference between the case and control groups in the XRCC1 genotype (p=0.038) but not in hOGG1 (p=0.383) and APE1 (p=0.898). The odds ratio of the XRCC1 A/G polymorphism was 2.592 (95% CI=1.225-5.484, p=0.013) and the G/G polymorphism was 1.212 (95% CI=0.914-1.607), compared to the A/A wild-type genotype. Moreover, individuals who carried at least one C-allele (A/G and G/G) had a 1.710 fold increased risk of developing pterygium compared to those who carried the A/A wild type genotype (OR=1.710; 95% CI: 1.015-2.882, p=0.044). The hOGG1 and APE1 polymorphisms did not have an increased odds ratio compared with the wild type.

CONCLUSIONS

XRCC1 (Arg399 Glu) is correlated with pterygium and might become a potential marker for the prediction of pterygium susceptibility.

摘要

目的

流行病学证据表明紫外线照射在翼状胬肉发病机制中起重要作用。紫外线照射可产生多种DNA损伤。碱基切除修复(BER)途径被认为是参与修复辐射诱导的DNA损伤的最重要途径。基于先前的研究,已发现BER途径中8-氧鸟嘌呤糖基化酶-1(OGG1)、X射线修复交叉互补蛋白1(XRCC1)和AP核酸内切酶1(APE1)基因中的单核苷酸多态性(SNP)会影响个体对辐射暴露的敏感性和DNA损伤的诱导。因此,我们假设这些修复基因的基因多态性会增加翼状胬肉的风险。

方法

使用荧光标记的Taq Man探针研究了83例翼状胬肉标本和206例正常对照中的XRCC1、APE1和hOGG1多态性。

结果

病例组和对照组在XRCC1基因型上存在显著差异(p = 0.038),而在hOGG1(p = 0.383)和APE1(p = 0.898)上无显著差异。与A/A野生型基因型相比,XRCC1 A/G多态性的优势比为2.592(95%可信区间 = 1.225 - 5.484,p = 0.013),G/G多态性的优势比为1.212(95%可信区间 = 0.914 - 1.607)。此外,与携带A/A野生型基因型的个体相比,携带至少一个C等位基因(A/G和G/G)的个体患翼状胬肉的风险增加了1.710倍(优势比 = 1.710;95%可信区间:1.015 - 2.882,p = 0.044)。与野生型相比,hOGG1和APE1多态性的优势比没有增加。

结论

XRCC1(Arg399 Glu)与翼状胬肉相关,可能成为预测翼状胬肉易感性的潜在标志物。