Integrated Analysis of DNA Methylation and Biochemical/Metabolic Parameter During the Long-Term Isolation Environment

Overview

Journal Front Physiol

Date 2019 Aug 13

PMID 31402871

Citations 1

Authors

Yuan Quan

Fengji Liang

Yuexing Zhu

Ying Chen

Zi Xu

Fang Du

Ke Lv

Hailong Chen

Lina Qu

Ruifeng Xu

Hong-Yu Zhang

Jianghui Xiong

Yinghui Li

Affiliations

Soon will be listed here.

Abstract

Numerous studies have shown that changes in the epigenome are an important cause of human biochemical or metabolic parameter changes. Biochemical/metabolic parameter disorders of the human body are usually closely related to the occurrence of disease. Therefore, constructing credible DNA methylation site-biochemical/metabolic parameter associations are key in interpreting the pathogenesis of diseases. However, there is a lack of research on systematic integration analysis of DNA methylation with biochemical/metabolic parameter and diseases. In this study, we attempted to use the four-people, multiple time point detected data from the long-term isolation experiment to conduct a correlation analysis. We used the biclustering algorithm FABIA to cluster the DNA methylation site-parameter correlation matrixes into 28 biclusters. The results of the biological function analysis for these biclusters were consistent with the biochemical/metabolic parameter change characteristics of the human body during long-term isolation, demonstrating the reliability of the biclusters identified by our method. In addition, from these biclusters, we obtained highly credible biochemical/metabolic parameter-disease associations, which is supported by several studies. Our results indicate that there is an overlap of biochemical/metabolic parameter-disease associations derived from a small sample, multiple time point data in healthy populations and the associations obtained from a large sample data in patients during disease development. These findings provide insights into understanding the role of the epigenome in biochemical/metabolic parameter change and disease development and has potential applications in biology and medicine research.

Citing Articles

Insulin-resistance and depression cohort data mining to identify nutraceutical related DNA methylation biomarker for type 2 diabetes.

Liang F, Quan Y, Wu A, Chen Y, Xu R, Zhu Y Genes Dis. 2021; 8(5):669-676.

PMID: 34291138 PMC: 8278533. DOI: 10.1016/j.gendis.2020.01.013.

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