Erica K. Sinner scite author profile

Cobalamin- or B12-dependent radical S-adenosylmethionine (SAM) enzymes acting during carbapenem antibiotic biosynthesis carry out radical-mediated methyl transfers that underlie the therapeutic usefulness of these essential medicines. Here we present x-ray crystal structures of TokK, which are representative of this functional class, containing its two metallocofactors and determined in the presence and absence of carbapenam substrate. The structures give the first visualization of a cobalamin-dependent radical SAM methylase that employs the radical mechanism shared by a vast majority of these enzymes. The structures provide insight into the stereochemistry of initial C6 methylation and suggests that substrate positioning governs the rate of each methylation event.One Sentence SummaryStructural insight into a cobalamin-dependent radical SAM methylase that performs three sequential radical-mediated methylations to install the C6 side chain of a carbapenem antibiotic.

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Evolution of Methods for the Study of Cobalamin-Dependent Radical SAM Enzymes

Sinner

Marous

Townsend

2021

ACS Bio Med Chem Au

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While bioinformatic evidence of cobalamin-dependent radical S-adenosylmethionine (SAM) enzymes has existed since the naming of the radical SAM superfamily in 2001, none were biochemically characterized until 2011. In the past decade, the field has flourished as methodological advances have facilitated study of the subfamily. Because of the ingenuity and perseverance of researchers in this field, we now have functional, mechanistic, and structural insight into how this class of enzymes harnesses the power of both the cobalamin and radical SAM cofactors to achieve catalysis. All of the early characterized enzymes in this subfamily were methylases, but the activity of these enzymes has recently been expanded beyond methylation. We anticipate that the characterized functions of these enzymes will become both better understood and increasingly diverse with continued study.

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Purification and characterization of sequential cobalamin-dependent radical SAM methylases ThnK and TokK in carbapenem β-lactam antibiotic biosynthesis

Sinner

Townsend

2022

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Erica K. Sinner

Methylations in complex carbapenem biosynthesis are catalyzed by a single cobalamin-dependent radicalS-adenosylmethionine enzyme

Structure of a B12-dependent radical SAM enzyme in carbapenem biosynthesis

Structural basis for carbapenamC-alkylation by TokK, a B₁₂-dependent radical SAM enzyme

Evolution of Methods for the Study of Cobalamin-Dependent Radical SAM Enzymes

Purification and characterization of sequential cobalamin-dependent radical SAM methylases ThnK and TokK in carbapenem β-lactam antibiotic biosynthesis

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Erica K. Sinner

Methylations in complex carbapenem biosynthesis are catalyzed by a single cobalamin-dependent radicalS-adenosylmethionine enzyme

Structure of a B12-dependent radical SAM enzyme in carbapenem biosynthesis

Structural basis for carbapenamC-alkylation by TokK, a B12-dependent radical SAM enzyme

Evolution of Methods for the Study of Cobalamin-Dependent Radical SAM Enzymes

Purification and characterization of sequential cobalamin-dependent radical SAM methylases ThnK and TokK in carbapenem β-lactam antibiotic biosynthesis

Contact Info

Product

Resources

About

Structural basis for carbapenamC-alkylation by TokK, a B₁₂-dependent radical SAM enzyme