A molecular mechanism for the enzymatic methylation of nitrogen atoms within peptide bonds

A molecular mechanism for the enzymatic methylation of nitrogen atoms within peptide bonds

The peptide bond, the defining feature of proteins, governs peptide chemistry by abolishing nucleophilicity of the nitrogen. This and the planarity of the peptide bond arise from the delocalization of the lone pair of electrons on the nitrogen atom into the adjacent carbonyl. While chemical methylat...

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Veröffentlicht in:Science advances 2018-08, Vol.4 (8), p.eaat2720-eaat2720
Hauptverfasser: Song, Haigang, van der Velden, Niels S, Shiran, Sally L, Bleiziffer, Patrick, Zach, Christina, Sieber, Ramon, Imani, Aman S, Krausbeck, Florian, Aebi, Markus, Freeman, Michael F, Riniker, Sereina, Künzler, Markus, Naismith, James H
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container_end_page eaat2720
container_issue 8
container_start_page eaat2720
container_title Science advances
container_volume 4
creator Song, Haigang
van der Velden, Niels S
Shiran, Sally L
Bleiziffer, Patrick
Zach, Christina
Sieber, Ramon
Imani, Aman S
Krausbeck, Florian
Aebi, Markus
Freeman, Michael F
Riniker, Sereina
Künzler, Markus
Naismith, James H
description The peptide bond, the defining feature of proteins, governs peptide chemistry by abolishing nucleophilicity of the nitrogen. This and the planarity of the peptide bond arise from the delocalization of the lone pair of electrons on the nitrogen atom into the adjacent carbonyl. While chemical methylation of an amide bond uses a strong base to generate the imidate, OphA, the precursor protein of the fungal peptide macrocycle omphalotin A, self-hypermethylates amides at pH 7 using -adenosyl methionine (SAM) as cofactor. The structure of OphA reveals a complex catenane-like arrangement in which the peptide substrate is clamped with its amide nitrogen aligned for nucleophilic attack on the methyl group of SAM. Biochemical data and computational modeling suggest a base-catalyzed reaction with the protein stabilizing the reaction intermediate. Backbone N-methylation of peptides enhances their protease resistance and membrane permeability, a property that holds promise for applications to medicinal chemistry.
doi_str_mv 10.1126/sciadv.aat2720
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SciAdv r-articles
title A molecular mechanism for the enzymatic methylation of nitrogen atoms within peptide bonds
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