Epigenetic signaling and crosstalk in regulation of gene expression and disease progression

Author:

Manna Soumen1,Mishra Jagdish1,Baral Tirthankar1ORCID,Kirtana R1,Nandi Piyasa1,Roy Ankan1,Chakraborty Subhajit1,Niharika 1,Patra Samir K1ORCID

Affiliation:

1. Epigenetics & Cancer Research Laboratory, Biochemistry & Molecular Biology Group, Department of Life Science, National Institute of Technology, Rourkela, Odisha, 769008, India

Abstract

Chromatin modifications – including DNA methylation, modification of histones and recruitment of noncoding RNAs – are essential epigenetic events. Multiple sequential modifications converge into a complex epigenetic landscape. For example, promoter DNA methylation is recognized by MeCP2/methyl CpG binding domain proteins which further recruit SETDB1/SUV39 to attain a higher order chromatin structure by propagation of inactive epigenetic marks like H3K9me3. Many studies with new information on different epigenetic modifications and associated factors are available, but clear maps of interconnected pathways are also emerging. This review deals with the salient epigenetic crosstalk mechanisms that cells utilize for different cellular processes and how deregulation or aberrant gene expression leads to disease progression.

Publisher

Future Medicine Ltd

Subject

Cancer Research,Genetics

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