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分析与昼夜节律相关基因(CRY1、CRY2 和褪黑素受体 1B)的葡萄糖相关单核苷酸多态性(SNP)的进化和种族多样性。

Analysis of Evolution and Ethnic Diversity at Glucose-Associated SNPs of Circadian Clock-Related Loci with Cryptochrome 1, Cryptochrome 2, and Melatonin receptor 1B.

机构信息

Departments of Diabetes, Medicine, and Genetics, Yoshiuchi Medical Diabetes Institute, 2-12-24 Asukano-minami, Ikoma City, Nara, 630-0133, Japan.

Departments of Diabetes and Medicine, Yoshiuchi Medical Diabetes Family Clinic, 3-7-21 Asukano-minami, Ikoma City, Nara, 630-0133, Japan.

出版信息

Biochem Genet. 2021 Oct;59(5):1173-1184. doi: 10.1007/s10528-021-10045-y. Epub 2021 Mar 11.

DOI:10.1007/s10528-021-10045-y
PMID:33709300
Abstract

Diabetes shows high heritability and, worldwide, causes significant health problems including cardiovascular disease and stroke. There is significant variation in the frequency of diabetes between different populations. Both Cryptochromes and Melatonin have a major role to regulate the circadian clock. Circadian clock failure causes metabolic dysfunctions including diabetes and obesity. Variations in the Cryptochrome 1, the Cryptochrome 2, and the Melatonin receptor 1B (MTNR1B) genes show associations with fasting glucose, and are also related to circadian clock. Here, we analyzed evidence for genetic selection and ethnic diversity at circadian clock- and glucose-related gene loci associated with Cryptochrome 1, Cryptochrome 2, and MTNR1B. We carried out a 3-step genetic method to investigate genetic selection at the Cryptochrome 1, Cryptochrome 2, and MTNR1B on four populations from the 1000 Genomes Project and HapMap. First we used F-statistics to quantify genetic population differences and find ethnic diversity. Then we applied a long-range haplotype test to detect significant extreme long haplotypes, and then the integrated haplotype score (iHS) to find genetic selection at Cryptochrome 1, Cryptochrome 2, and MTNR1B. We observed genetic population differences and ethnic diversity at one glucose-associated Cryptochrome 1 single-nucleotide polymorphism (SNP) (rs8192440), one glucose-associated Cryptochrome 2 SNP (rs11605924), and one glucose-associated MTNR1B SNP (rs10830963) by F-statistics. Both Cryptochrome 1 and MTNR1B also showed selection by the iHS. These observations show new evidence for evolution at Cryptochrome 1, Cryptochrome 2 and MTNR1B. Further investigation should continue to examine the evolution of circadian clock- and glucose-related genes.

摘要

糖尿病具有高度遗传性,在全球范围内导致包括心血管疾病和中风在内的重大健康问题。不同人群之间糖尿病的发病率存在显著差异。Cryptochromes 和 Melatonin 在调节生物钟方面都起着重要作用。生物钟的失败会导致代谢功能紊乱,包括糖尿病和肥胖症。Cryptochrome 1、Cryptochrome 2 和 Melatonin 受体 1B (MTNR1B) 基因的变异与空腹血糖有关,也与生物钟有关。在这里,我们分析了与 Cryptochrome 1、Cryptochrome 2 和 MTNR1B 相关的生物钟和葡萄糖相关基因座的遗传选择和种族多样性的证据。我们对来自 1000 基因组计划和 HapMap 的四个人群进行了 3 步遗传方法,以研究 Cryptochrome 1、Cryptochrome 2 和 MTNR1B 的遗传选择。首先,我们使用 F 统计量来量化遗传群体差异并发现种族多样性。然后,我们应用长程单倍型测试来检测显著的极端长单倍型,然后是综合单倍型得分 (iHS) 来发现 Cryptochrome 1、Cryptochrome 2 和 MTNR1B 的遗传选择。我们通过 F 统计量观察到一个与葡萄糖相关的 Cryptochrome 1 单核苷酸多态性 (SNP) (rs8192440)、一个与葡萄糖相关的 Cryptochrome 2 SNP (rs11605924) 和一个与葡萄糖相关的 MTNR1B SNP (rs10830963) 的遗传群体差异和种族多样性。iHS 还显示 Cryptochrome 1 和 MTNR1B 也受到选择。这些观察结果为 Cryptochrome 1、Cryptochrome 2 和 MTNR1B 的进化提供了新的证据。应继续进一步调查生物钟和葡萄糖相关基因的进化。

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引用本文的文献

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Mechanisms of Melatonin in Obesity: A Review.褪黑素在肥胖中的作用机制:综述。
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本文引用的文献

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Identification and Potential Clinical Utility of the rs10830963 Core Gene Variant Associated to Endophenotypes in Gestational Diabetes Mellitus.与妊娠期糖尿病内表型相关的rs10830963核心基因变异的鉴定及其潜在临床应用价值
Front Genet. 2020 Apr 21;11:332. doi: 10.3389/fgene.2020.00332. eCollection 2020.
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MTNR1B genetic polymorphisms as risk factors for gestational diabetes mellitus: a case-control study in a single tertiary care center.MTNR1B基因多态性作为妊娠期糖尿病的危险因素:在单一三级医疗中心进行的病例对照研究
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Evidence for natural selection at the melanocortin-3 receptor gene in European and African populations.
欧洲和非洲人群中黑皮质素-3受体基因自然选择的证据。
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Genetic fine mapping and genomic annotation defines causal mechanisms at type 2 diabetes susceptibility loci.基因精细定位和基因组注释确定了2型糖尿病易感位点的致病机制。
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Season-dependent associations of circadian rhythm-regulating loci (CRY1, CRY2 and MTNR1B) and glucose homeostasis: the GLACIER Study.昼夜节律调节基因(CRY1、CRY2 和 MTNR1B)与葡萄糖稳态的季节性关联:GLACIER 研究。
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