Significance of Epigenetic regulation
Epigenetic regulation involves the mechanisms that modify gene expression without altering the DNA sequence. This encompasses modifications on DNA and histones, affecting how genes are expressed and influencing various health outcomes. Factors such as microRNAs play a significant role in these processes and can be particularly relevant in diseases like endometriosis. Essentially, epigenetic regulation highlights how gene activity can change in response to various influences while keeping the underlying genetic code intact.
Synonyms: Epigenetic control, Epigenetic modification, Gene regulation, Chromatin remodeling, Gene expression regulation, Genetic modification, Dna methylation, Histone modification, Transcriptional control, Non-coding rna, Gene silencing.
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The concept of Epigenetic regulation in scientific sources
Epigenetic regulation involves modifications to DNA and histones that affect gene expression while leaving the DNA sequence unchanged, highlighting its crucial role in genetic control and potential implications for health and disease.
From: The Malaysian Journal of Medical Sciences
(1) The modification of gene expression without altering the DNA sequence, often influencing cellular differentiation and function.[1]