DNA Methylation Entropy is Associated with DNA Sequence Features and Developmental Epigenetic Divergence

Overview

Journal Nucleic Acids Res

Publisher Oxford University Press

Specialty Biochemistry

Date 2023 Feb 10

PMID 36762477

Authors

Yuqi Fang

Zhicheng Ji

Weiqiang Zhou

Jordi Abante

Michael A Koldobskiy

Hongkai Ji

Andrew P Feinberg

Affiliations

Soon will be listed here.

Abstract

Epigenetic information defines tissue identity and is largely inherited in development through DNA methylation. While studied mostly for mean differences, methylation also encodes stochastic change, defined as entropy in information theory. Analyzing allele-specific methylation in 49 human tissue sample datasets, we find that methylation entropy is associated with specific DNA binding motifs, regulatory DNA, and CpG density. Then applying information theory to 42 mouse embryo methylation datasets, we find that the contribution of methylation entropy to time- and tissue-specific patterns of development is comparable to the contribution of methylation mean, and methylation entropy is associated with sequence and chromatin features conserved with human. Moreover, methylation entropy is directly related to gene expression variability in development, suggesting a role for epigenetic entropy in developmental plasticity.

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