The 8-oxoguanine DNA N-glycosylase 1 (hOGG1) Ser326Cys variant affects the susceptibility to Graves' disease |
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| Authors: | Tanrikulu Sevda Do?ru-Abbaso?lu Semra Ozderya Ay?enur Ademo?lu Evin Karada? Berrin Erbil Ye?im Uysal Müjdat |
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| Institution: | 1. Department of Biochemistry, Istanbul Faculty of Medicine, Istanbul University, ?apa, Istanbul, Turkey;2. Division of Endocrinology, Department of Internal Medicine, ?i?li Etfal Research and Training Hospital, ?i?li, ?stanbul, Turkey;3. Department of General Surgery, Istanbul Faculty of Medicine, Istanbul University, ?apa, Istanbul, Turkey |
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| Abstract: | Oxidative DNA damage, caused by either endogenous or exogenous sources of reactive oxygen species (ROS), has been linked several diseases including Graves' disease (GD). 7,8‐Dihydro‐8‐oxoguanine (8‐oxoG) is a major lesion produced by ROS and is considered a key biomarker of oxidative DNA damage. In humans, 8‐oxoG is mainly repaired by 8‐oxoguanine DNA N‐glycosylase‐1 (hOGG1), which is an essential component of the base excision repair (BER) pathway. The functional studies showed that hOGG1 Ser326Cys polymorphism is associated with the reduced DNA repair activity and increased risk for some oxidative stress‐related diseases. In this study, we firstly investigated hOGG1 Ser326Cys polymorphism in GD. According to our results, Cys/Cys genotype frequency in the GD patients (23.4%) was significantly higher than the controls (9.2%). Cys/Cys genotype had an 3.5‐fold 95% CI (confidence interval): 2.10–6.01, p < 0.001] the Cys allele had 1.83‐fold (95% CI: 1.43–2.34, p < 0.001) increase in the risk for developing GD. Our results suggest that Ser326Cys polymorphism of the hOGG1 gene is associated with GD risk. Copyright © 2011 John Wiley & Sons, Ltd. |
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| Keywords: | Graves' disease polymorphism DNA repair hOGG1 |
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