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The role of m6A modification in physiology and disease

Chuan Yang, Yiyang Hu, Bo Zhou, Yulu Bao, Zhibin Li, Chunli Gong, Huan Yang, Sumin Wang, Yufeng Xiao

2020Cell Death and Disease194 citationsDOIOpen Access PDF

Abstract

Abstract Similar to DNA epigenetic modifications, multiple reversible chemical modifications on RNAs have been uncovered in a new layer of epigenetic modification. N6-methyladenosine (m 6 A), a modification that occurs in ~30% transcripts, is dynamically regulated by writer complex (methylase) and eraser (RNA demethylase) proteins, and is recognized by reader (m 6 A-binding) proteins. The effects of m 6 A modification are reflected in the functional modulation of mRNA splicing, export, localization, translation, and stability by regulating RNA structure and interactions between RNA and RNA-binding proteins. This modulation is involved in a variety of physiological behaviors, including neurodevelopment, immunoregulation, and cellular differentiation. The disruption of m 6 A modulations impairs gene expression and cellular function and ultimately leads to diseases such as cancer, psychiatric disorders, and metabolic disease. This review focuses on the mechanisms and functions of m 6 A modification in a variety of physiological behaviors and diseases.

Topics & Concepts

DemethylaseEpigeneticsRNA splicingRNATranslation (biology)BiologyCell biologyGene expressionRegulation of gene expressionAlternative splicingRNA-binding proteinFunction (biology)GeneMessenger RNAComputational biologyGeneticsRNA modifications and cancerHVDC Systems and Fault ProtectionCancer-related gene regulation
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