韩国葡萄糖-6-磷酸脱氢酶缺乏症患者的基因谱

Genetic Profiles of Korean Patients With Glucose-6-Phosphate Dehydrogenase Deficiency.

作者信息

Lee Jaewoong, Park Joonhong, Choi Hayoung, Kim Jiyeon, Kwon Ahlm, Jang Woori, Chae Hyojin, Kim Myungshin, Kim Yonggoo, Lee Jae Wook, Chung Nack Gyun, Cho Bin

机构信息

Department of Laboratory Medicine, College of Medicine, The Catholic University of Korea, Seoul, Korea.

Catholic Genetic Laboratory Center, College of Medicine, The Catholic University of Korea, Seoul, Korea.

出版信息

Ann Lab Med. 2017 Mar;37(2):108-116. doi: 10.3343/alm.2017.37.2.108.

DOI:10.3343/alm.2017.37.2.108

PMID:28028996

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5203987/

Abstract

BACKGROUND

We describe the genetic profiles of Korean patients with glucose-6-phosphate dehydrogenase (G6PD) deficiencies and the effects of G6PD mutations on protein stability and enzyme activity on the basis of in silico analysis.

METHODS

In parallel with a genetic analysis, the pathogenicity of G6PD mutations detected in Korean patients was predicted in silico. The simulated effects of G6PD mutations were compared to the WHO classes based on G6PD enzyme activity. Four previously reported mutations and three newly diagnosed patients with missense mutations were estimated.

RESULTS

One novel mutation (p.Cys385Gly, labeled G6PD Kangnam) and two known mutations [p.Ile220Met (G6PD São Paulo) and p.Glu416Lys (G6PD Tokyo)] were identified in this study. G6PD mutations identified in Koreans were also found in Brazil (G6PD São Paulo), Poland (G6PD Seoul), United States of America (G6PD Riley), Mexico (G6PD Guadalajara), and Japan (G6PD Tokyo). Several mutations occurred at the same nucleotide, but resulted in different amino acid residue changes in different ethnic populations (p.Ile380 variant, G6PD Calvo Mackenna; p.Cys385 variants, Tomah, Madrid, Lynwood; p.Arg387 variant, Beverly Hills; p.Pro396 variant, Bari; and p.Pro396Ala in India). On the basis of the in silico analysis, Class I or II mutations were predicted to be highly deleterious, and the effects of one Class IV mutation were equivocal.

CONCLUSIONS

The genetic profiles of Korean individuals with G6PD mutations indicated that the same mutations may have arisen by independent mutational events, and were not derived from shared ancestral mutations. The in silico analysis provided insight into the role of G6PD mutations in enzyme function and stability.

摘要

背景

我们描述了韩国葡萄糖-6-磷酸脱氢酶（G6PD）缺乏症患者的基因图谱，并基于计算机模拟分析了G6PD突变对蛋白质稳定性和酶活性的影响。

方法

在进行基因分析的同时，对在韩国患者中检测到的G6PD突变的致病性进行了计算机模拟预测。根据G6PD酶活性，将G6PD突变的模拟效应与世界卫生组织的分类进行比较。评估了四个先前报道的突变和三名新诊断的错义突变患者。

结果

本研究鉴定出一个新突变（p.Cys385Gly，标记为G6PD江南）和两个已知突变[p.Ile220Met（G6PD圣保罗）和p.Glu416Lys（G6PD东京）]。在韩国人中发现的G6PD突变也在巴西（G6PD圣保罗）、波兰（G6PD首尔）、美国（G6PD莱利）、墨西哥（G6PD瓜达拉哈拉）和日本（G6PD东京）被发现。几个突变发生在相同的核苷酸上，但在不同种族群体中导致了不同的氨基酸残基变化（p.Ile380变体，G6PD卡尔沃·麦肯纳；p.Cys385变体，托马、马德里、林伍德；p.Arg387变体，比佛利山庄；p.Pro396变体，巴里；以及印度的p.Pro396Ala）。基于计算机模拟分析，预测I类或II类突变具有高度有害性，而一个IV类突变的影响不明确。

结论

韩国G6PD突变个体的基因图谱表明，相同的突变可能是由独立的突变事件产生的，并非源自共同的祖先突变。计算机模拟分析为G6PD突变在酶功能和稳定性中的作用提供了见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8217/5203987/9cb45b46c4bc/alm-37-108-g001.jpg

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韩国葡萄糖-6-磷酸脱氢酶缺乏症患者的基因谱

Genetic Profiles of Korean Patients With Glucose-6-Phosphate Dehydrogenase Deficiency.

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