The catalytic domains of all human KDM5 JmjC demethylases catalyse N-methyl arginine demethylation.

The catalytic domains of all human KDM5 JmjC demethylases catalyse N-methyl arginine demethylation.

The demethylation of N<sup>ε</sup> -methyllysine residues on histones by Jumonji-C lysine demethylases (JmjC-KDMs) has been established. A subset of JmjC-KDMs has also been reported to have N<sup>ω</sup> -methylarginine residue demethylase (RDM) activity. Here, we describe bi...

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Bibliographic Details
Main Authors: Bonnici, J, Oueini, R, Salah, E, Johansson, C, Schofield, CJ, Kawamura, A
Format: Journal article
Language:English
Published: Wiley 2023
Description
Summary:The demethylation of N<sup>ε</sup> -methyllysine residues on histones by Jumonji-C lysine demethylases (JmjC-KDMs) has been established. A subset of JmjC-KDMs has also been reported to have N<sup>ω</sup> -methylarginine residue demethylase (RDM) activity. Here, we describe biochemical screening studies, showing that the catalytic domains of all human KDM5s (KDM5A-KDM5D), KDM4E and, to a lesser extent, KDM4A/D, have both KDM and RDM activities with histone peptides. Ras GTPase-activating protein-binding protein 1 peptides were shown to be RDM substrates for KDM5C/D. No RDM activity was observed with KDM1A and the other JmjC-KDMs tested. The results highlight the potential of JmjC-KDMs to catalyse reactions other than N<sup>ε</sup> -methyllysine demethylation. Although our study is limited to peptide fragments, the results should help guide biological studies investigating JmjC functions.

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