胚胎发生过程中生物过程的协调作用可导致人类基因组的全基因组连锁失衡,并影响与年龄相关的表型。

Annals of gerontology and geriatric research Pub Date : 2016-01-01 Epub Date: 2016-05-04
Irina Culminskaya, Alexander M Kulminski, Anatoli I Yashin
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引用次数: 0

摘要

人们越来越认识到非孟德尔遗传在复杂的、与年龄相关的性状遗传学中的作用。最近,我们报告了在弗雷明汉心脏研究(FHS)中发现的两个具有广泛全基因组连锁不平衡(LD)的可遗传 SNPs 簇,它们与过早死亡的表型有关。在此,我们探讨了这两个基因簇的生物学相关特性。这些群组不太可能是随机选择的,因为它们在功能和结构上与随机选择的 SNP 匹配集不同。例如,一般来说,每个簇中的 LD SNPs 在基因(p=7.1×10-22 和 p=5.8×10-18)中高度显著富集,尤其是在短基因(p=1.4×10-47 和 p=4.6×10-7)中。将LD中的SNP映射到基因后,形成了两个部分重叠的网络,分别包含1764个和4806个基因。这两个网络的基因都富集在发育过程和与发育密切相关的生物过程中,包括生物粘附、细胞成分组织、运动、定位、信号转导等(每个类别的 p-4、q-4)。透彻的分析表明,这些基因网络与胚胎发生的不同阶段存在联系,并突出了这些网络中基因所富集的特定过程之间的生物学联系。研究结果表明,胚胎发生过程中生物过程的协调作用可能会产生全基因组范围的遗传变异网络,而这些网络可能会影响复杂的年龄相关表型,从而影响健康寿命和寿命的特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Coordinated Action of Biological Processes during Embryogenesis Can Cause Genome-Wide Linkage Disequilibrium in the Human Genome and Influence Age-Related Phenotypes.

A role of non-Mendelian inheritance in genetics of complex, age-related traits is becoming increasingly recognized. Recently, we reported on two inheritable clusters of SNPs in extensive genome-wide linkage disequilibrium (LD) in the Framingham Heart Study (FHS), which were associated with the phenotype of premature death. Here we address biologically-related properties of these two clusters. These clusters have been unlikely selected randomly because they are functionally and structurally different from matched sets of randomly selected SNPs. For example, SNPs in LD from each cluster are highly significantly enriched in genes (p=7.1×10-22 and p=5.8×10-18), in general, and in short genes (p=1.4×10-47 and p=4.6×10-7), in particular. Mapping of SNPs in LD to genes resulted in two, partly overlapping, networks of 1764 and 4806 genes. Both these networks were gene enriched in developmental processes and in biological processes tightly linked with development including biological adhesion, cellular component organization, locomotion, localization, signaling, (p<10-4, q<10-4 for each category). Thorough analysis suggests connections of these genetic networks with different stages of embryogenesis and highlights biological interlink of specific processes enriched for genes from these networks. The results suggest that coordinated action of biological processes during embryogenesis may generate genome-wide networks of genetic variants, which may influence complex age-related phenotypes characterizing health span and lifespan.

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