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Abstract LarC catalyzes the CTP-dependent insertion of nickel ion into pyridinium-3,5-bisthiocarboxylic acid mononucleotide (P2TMN), the final biosynthetic step for generating the nickel-pincer nucleotide (NPN) enzyme cofactor. In this study, we characterized a LarC homolog from Moorella thermoacetica (LarCMt) and characterized selected properties of the protein. We ruled out the hypothesis that enzyme inhibition by its product pyrophosphate accounts for its apparent single-turnover activity. Most notably, we identified a cytidinylylated-substrate intermediate that is formed during the reaction of LarCMt. Selected LarCMt variants with substitutions at the predicted CTP-binding site retained substantial amounts of activity, but exhibited greatly reduced levels of the CMP-P2TMN intermediate. In contrast, enhanced amounts of the CMP-P2TMN intermediate were generated when using LarCMt from cells grown on medium without supplemental nickel. On the basis of these results, we propose a functional role for CTP in the unprecedented nickel-insertase reaction during NPN biosynthesis. 

Abstract This study investigates dioxygen binding and 2‐oxoglutarate (2OG) coordination by two model non‐heme Fe^II/2OG enzymes: a class 7 histone demethylase (PHF8) that catalyzes the hydroxylation of its H3K9me2 histone substrate leading to demethylation reactivity and the ethylene‐forming enzyme (EFE), which catalyzes two competing reactions of ethylene generation and substratel‐Arg hydroxylation. Although both enzymes initially bind 2OG by using anoff‐line2OG coordination mode, in PHF8, the substrate oxidation requires a transition to anin‐linemode, whereas EFE is catalytically productive for ethylene production from 2OG in theoff‐linemode. We used classical molecular dynamics (MD), quantum mechanics/molecular mechanics (QM/MM) MD and QM/MM metadynamics (QM/MM‐MetD) simulations to reveal that it is the dioxygen binding process and, ultimately, the protein environment that control the formation of thein‐lineFe^III‐OO⋅⁻intermediate in PHF8 and theoff‐lineFe^III‐OO⋅⁻intermediate in EFE.