Robert J. Rabelo-Fernández, Madeline Yuen, Pedro J. Batista
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The metabolic baton: conducting the dance of N6-methyladenosine writing and erasing
The modification N6-methyladenosine (m6A) plays an important role in determining the functional output of gene expression programs. Throughout the transcriptome, the levels of m6A are tightly regulated by the opposing activities of methyltransferases and demethylases, as well as the interaction of modified transcripts with m6A-dependent RNA-binding proteins that modulate transcript stability, often referred to as writers, erasers, and readers. The enzymatic activities of both writers and erasers are tightly linked to the cellular metabolic environment, as these enzymatic reactions rely on metabolism intermediaries as cofactors. In this review, we highlight the examples of intersection between metabolism and m6A-dependent gene regulation and discuss the different contexts where this interaction plays important roles.
期刊介绍:
Current Opinion in Genetics and Development aims to stimulate scientifically grounded, interdisciplinary, multi-scale debate and exchange of ideas. It contains polished, concise and timely reviews and opinions, with particular emphasis on those articles published in the past two years. In addition to describing recent trends, the authors are encouraged to give their subjective opinion of the topics discussed.
In Current Opinion in Genetics and Development we help the reader by providing in a systematic manner:
1. The views of experts on current advances in their field in a clear and readable form.
2. Evaluations of the most interesting papers, annotated by experts, from the great wealth of original publications.[...]
The subject of Genetics and Development is divided into six themed sections, each of which is reviewed once a year:
• Cancer Genomics
• Genome Architecture and Expression
• Molecular and genetic basis of disease
• Developmental mechanisms, patterning and evolution
• Cell reprogramming, regeneration and repair
• Genetics of Human Origin / Evolutionary genetics (alternate years)
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