Lisa L. Chatwood scite author profile

Soluble methane monooxygenase (sMMO) catalyzes the hydroxylation of methane by dioxygen to methanol, the first step in carbon assimilation by methanotrophs. This multicomponent system transfers electrons from NADH through a reductase component to the non-heme diiron center in the hydroxylase where O(2) is activated. The reductase component comprises three distinct domains, a [2Fe-2S] ferredoxin domain along with FAD- and NADH-binding domains. We report the solution structure of the reduced 27.6 kDa FAD- and NADH-binding domains (MMOR-FAD) of the reductase from Methylococcus capsulatus (Bath). The FAD-binding domain consists of a six-stranded antiparallel beta-barrel and one alpha-helix, with the first 10 N-terminal residues unstructured. In the interface between the two domains, the FAD cofactor is tightly bound in an unprecedented extended conformation. The NADH-binding domain consists of a five-stranded parallel beta-sheet with four alpha-helices packing closely around this sheet. MMOR-FAD is structurally homologous to other FAD-containing oxidoreductases, and we expect similar structures for the FAD/NADH-binding domains of reductases that occur in other multicomponent monooxygenases.

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Phosphonamidate and phosphothioate dipeptides as potential inhibitors of VanX

Yang

Brandt

Chatwood

et al. 2000

Bioorganic & Medicinal Chemistry Letters

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Continuous Assay for VanX, the d-Alanyl–d-Alanine Dipeptidase Required for High-Level Vancomycin Resistance

Brandt

Chatwood

Yang

et al. 1999

Analytical Biochemistry

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Analysis of Three Overexpression Systems for VanX, the Zinc(II) Dipeptidase Required for High-Level Vancomycin Resistance in Bacteria

Brandt

Chatwood

Crowder

2000

Protein Expression and Purification

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Lisa L. Chatwood

NMR Structure of the Flavin Domain from Soluble Methane Monooxygenase Reductase from Methylococcus capsulatus (Bath)^,

Phosphonamidate and phosphothioate dipeptides as potential inhibitors of VanX

Continuous Assay for VanX, the d-Alanyl–d-Alanine Dipeptidase Required for High-Level Vancomycin Resistance

Analysis of Three Overexpression Systems for VanX, the Zinc(II) Dipeptidase Required for High-Level Vancomycin Resistance in Bacteria

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About

Lisa L. Chatwood

NMR Structure of the Flavin Domain from Soluble Methane Monooxygenase Reductase from Methylococcus capsulatus (Bath),

Phosphonamidate and phosphothioate dipeptides as potential inhibitors of VanX

Continuous Assay for VanX, the d-Alanyl–d-Alanine Dipeptidase Required for High-Level Vancomycin Resistance

Analysis of Three Overexpression Systems for VanX, the Zinc(II) Dipeptidase Required for High-Level Vancomycin Resistance in Bacteria

Contact Info

Product

Resources

About

NMR Structure of the Flavin Domain from Soluble Methane Monooxygenase Reductase from Methylococcus capsulatus (Bath)^,