H3R2me2

In epigenetics, arginine methylation of histones H3 and H4 is associated with a more accessible chromatin structure and thus higher levels of transcription.

The genomic DNA of eukaryotic cells is wrapped around special protein molecules known as histones.

[5] The current understanding and interpretation of histones comes from two large scale projects: ENCODE and the Epigenomic roadmap.

This led to chromatin states, which define genomic regions by grouping different proteins and/or histone modifications together.

[8] A look in to the data obtained led to the definition of chromatin states based on histone modifications.

[10] As of March 2021, PRMT6-mediated H3R2me2 role in early embryonic development and ES cell identity are unclear.

It results in good optimization and is used in vivo to reveal DNA-protein binding occurring in cells.

ChIP-Seq can be used to identify and quantify various DNA fragments for different histone modifications along a genomic region.