研究哺乳动物甲基化阵列在单卵双生的全哺乳动物分析中的效用。

Examining the Utility of the Mammalian Methylation Array for Pan-Mammalian Analysis of Monozygotic Twinning.

作者信息

van Dongen Jenny, Breeze Charles E

机构信息

Department of Biological Psychology, Vrije Universiteit Amsterdam, Van der Boechorststraat 7, 1081 BT Amsterdam, The Netherlands.

Amsterdam Reproduction and Development Institute, 1081 HV Amsterdam, The Netherlands.

出版信息

Epigenomes. 2024 Oct 6;8(4):37. doi: 10.3390/epigenomes8040037.

DOI:10.3390/epigenomes8040037

PMID:39449361

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11503326/

Abstract

BACKGROUND/OBJECTIVES: Human identical twins are born at a rate of 3-4 per 1000 live births. Many other mammals also occasionally produce monozygotic twins, referred to as sporadic polyembryony. The underlying mechanisms are unknown. Through epigenome-wide association studies (EWAS), we identified a robust DNA methylation signature in somatic tissues from human monozygotic (MZ) twins, comprising 834 differentially methylated positions (MZ-DMPs). The results point to a connection between monozygotic twinning and early genome programming and enable new angles to study monozygotic twinning.

METHODS

The mammalian methylation array (MMA) measures 38,608 CpGs focusing on regions that are well-conserved across many mammalian species, allowing for pan-mammalian comparative epigenomic studies. Here, we successfully map human MZ-DMPs to probes of the mammalian methylation array across 157 mammalian genomes.

RESULTS

As expected, based on the modest probe overlap between Illumina 450k/EPIC and mammalian methylation array probes, only a subset of MZ-DMPs reside in conserved regions covered by the mammalian methylation array. These include probes mapping to , , , and . Re-analysis restricting the original EWAS in humans to conserved MMA regions yielded additional MZ-DMPs, suggesting that more loci may be detected by application of the mammalian array to monozygotic twins.

CONCLUSIONS

In conclusion, the mammalian methylation array may prove to be a promising platform to study whether a shared DNA methylation signature of sporadic polyembryony exists across diverse mammalian species. This may potentially point to shared underlying mechanisms.

摘要

背景/目的：人类同卵双胞胎的出生比例为每1000例活产中有3 - 4例。许多其他哺乳动物也偶尔会产生单卵双胞胎，即散发性多胚胎现象。其潜在机制尚不清楚。通过全基因组甲基化关联研究（EWAS），我们在人类同卵（MZ）双胞胎的体细胞组织中鉴定出一个强大的DNA甲基化特征，包括834个差异甲基化位点（MZ - DMPs）。这些结果表明单卵孪生与早期基因组编程之间存在联系，并为研究单卵孪生提供了新的视角。

方法

哺乳动物甲基化阵列（MMA）可测量38,608个CpG，重点关注在许多哺乳动物物种中保守的区域，从而能够进行全哺乳动物比较表观基因组研究。在这里，我们成功地将人类MZ - DMPs映射到157个哺乳动物基因组的哺乳动物甲基化阵列探针上。

结果

正如预期的那样，基于Illumina 450k/EPIC与哺乳动物甲基化阵列探针之间适度的探针重叠，只有一部分MZ - DMPs位于哺乳动物甲基化阵列覆盖的保守区域。这些包括映射到、、和的探针。将人类原始的EWAS重新分析限制在保守的MMA区域，产生了额外的MZ - DMPs，这表明将哺乳动物阵列应用于同卵双胞胎可能会检测到更多的位点。

结论

总之，哺乳动物甲基化阵列可能被证明是一个有前途的平台，用于研究在不同哺乳动物物种中是否存在散发性多胚胎现象的共享DNA甲基化特征。这可能潜在地指向共同的潜在机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7851/11503326/1af708f7f3df/epigenomes-08-00037-g001.jpg

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研究哺乳动物甲基化阵列在单卵双生的全哺乳动物分析中的效用。

Examining the Utility of the Mammalian Methylation Array for Pan-Mammalian Analysis of Monozygotic Twinning.

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