4.7 Review

Laboratory methods to decipher epigenetic signatures: a comparative review

Journal

CELLULAR & MOLECULAR BIOLOGY LETTERS
Volume 26, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s11658-021-00290-9

Keywords

Epigenetics; DNA methylation; Histone modifications; Techniques

Funding

  1. Liver and Gastrointestinal Diseases Research Center, Tabriz University of Medical Sciences [61435] Funding Source: Medline

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Epigenetics refers to events independent of nucleotide sequence and heritable changes, including DNA methylation and histone modification, which contribute to phenotypic features of cells. Both genetics and epigenetics play roles in determining the outcomes of regulatory gene expression systems, with the flexibility of epigenetic effects and stability of genetic coding leading to complexity in gene regulation.
Epigenetics refers to nucleotide sequence-independent events, and heritable changes, including DNA methylation and histone modification (as the two main processes), contributing to the phenotypic features of the cell. Both genetics and epigenetics contribute to determining the outcome of regulatory gene expression systems. Indeed, the flexibility of epigenetic effects and stability of genetic coding lead to gene regulation complexity in response signals. Since some epigenetic changes are significant in abnormalities such as cancers and neurodegenerative diseases, the initial changes, dynamic and reversible properties, and diagnostic potential of epigenomic phenomena are subject to epigenome-wide association studies (EWAS) for therapeutic aims. Based on recent studies, methodological developments are necessary to improve epigenetic research. As a result, several methods have been developed to explore epigenetic alterations at low, medium, and high scales, focusing on DNA methylation and histone modification detection. In this research field, bisulfite-, enzyme sensitivity- and antibody specificity-based techniques are used for DNA methylation, whereas histone modifications are gained based on antibody recognition. This review provides a mechanism-based understanding and comparative overview of the most common techniques for detecting the status of epigenetic effects, including DNA methylation and histone modifications, for applicable approaches from low- to high-throughput scales.

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