Jolinde van Strien scite author profile

Arginine methylation is a prevalent post‐translational modification in eukaryotic cells. Two significant debates exist within the field: do these enzymes dimethylate their substrates in a processive or distributive manner, and do these enzymes operate using a random or sequential method of bisubstrate binding? We revealed that human protein arginine N‐methyltransferase 1 (PRMT1) enzyme kinetics are dependent on substrate sequence. Further, peptides containing an Nη‐hydroxyarginine generally demonstrated substrate inhibition and had improved KM values, which evoked a possible role in inhibitor design. We also revealed that the perceived degree of enzyme processivity is a function of both cofactor and enzyme concentration, suggesting that previous conclusions about PRMT sequential methyl transfer mechanisms require reassessment. Finally, we demonstrated a sequential ordered Bi–Bi kinetic mechanism for PRMT1, based on steady‐state kinetic analysis. Together, our data indicate a PRMT1 mechanism of action and processivity that might also extend to other functionally and structurally conserved PRMTs.

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Kinetic Analysis of PRMT1 Reveals Multifactorial Processivity and a Sequential Ordered Mechanism

Brown

Koopmans²,

Strien

et al. 2018

The FASEB Journal

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Cover Feature: Kinetic Analysis of PRMT1 Reveals Multifactorial Processivity and a Sequential Ordered Mechanism (ChemBioChem 1/2018)

et al. 2017

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The cover feature picture shows the cofactor SAM (teal) and the peptide binding groove (pink) within a PRMT1 dimer. We find that PRMT1 binds its substrates by using a sequential ordered mechanism in which binding of the cofactor SAM precedes binding of the target peptide similar to how putting on socks precedes putting on shoes—a handy metaphor. More information can be found in the full paper by N. I. Martin, A. Frankel et al. on page 85 in Issue 1, 2018 (DOI: 10.1002/cbic.201700521).

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