Oligomeric Changes Regulate Flavin Transfer in Two-Component FMN Reductases Involved in Sulfur Metabolism

Aloh, Chioma H.; Zeczycki, Tonya N.; Ellis, Holly R.

doi:10.1021/acs.biochem.3c00361

Biochemistry

2023

DOI: 10.1021/acs.biochem.3c00361

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Oligomeric Changes Regulate Flavin Transfer in Two-Component FMN Reductases Involved in Sulfur Metabolism

Chioma H. Aloh,

Tonya N. Zeczycki,

Holly R. Ellis

Abstract: The FMN reductases (SsuE and MsuE of the alkanesulfonate monooxygenase systems) supply reduced flavin to their partner monooxygenases for the desulfonation of alkanesulfonates. Flavin reductases that comprise two-component systems must be able to regulate both flavin reduction and transfer. One mechanism to control these distinct processes is through changes in the oligomeric state of the enzymes. Despite their similar overall structures, SsuE and MsuE showed clear differences in their oligomeric states in the… Show more

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2024

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Cited by 4 publications

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Current understanding of enzyme structure and function in bacterial two-component flavin-dependent desulfonases: Cleaving C–S bonds of organosulfur compounds

Liew,

Wicht,

Gonzalez

et al. 2024

Archives of Biochemistry and Biophysics

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Current understanding of enzyme structure and function in bacterial two-component flavin-dependent desulfonases: Cleaving C–S bonds of organosulfur compounds

Liew,

Wicht,

Gonzalez

et al. 2024

Archives of Biochemistry and Biophysics

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Functional and structural characterization of a thermostable flavin reductase from Geobacillus mahadii Geo-05

Husain,

Jamaluddin,

Jonet

2024

International Journal of Biological Macromolecules

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Structural and Functional Characterization of a Novel Class A Flavin Monooxygenase from Bacillus niacini

Richardson,

Turlington,

Vaz Ferreira de Macedo

et al. 2024

Biochemistry

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A gene cluster responsible for the degradation of nicotinic acid (NA) in Bacillus niacini has recently been identified, and the structures and functions of the resulting enzymes are currently being evaluated to establish pathway intermediates. One of the genes within this cluster encodes a flavin monooxygenase (BnFMO) that is hypothesized to catalyze a hydroxylation reaction. Kinetic analyses of the recombinantly purified BnFMO suggest that this enzyme catalyzes the hydroxylation of 2,6-dihydroxynicotinic acid (2,6-DHNA) or 2,6-dihydroxypyridine (2,6-DHP), which is formed spontaneously by the decarboxylation of 2,6-DHNA. To understand the details of this hydroxylation reaction, we determined the structure of BnFMO using a multimodel approach combining protein X-ray crystallography and cryo-electron microscopy (cryo-EM). A liganded BnFMO cryo-EM structure was obtained in the presence of 2,6-DHP, allowing us to make predictions about potential catalytic residues. The structural data demonstrate that BnFMO is trimeric, which is unusual for Class A flavin monooxygenases. In both the electron density and coulomb potential maps, a region at the trimeric interface was observed that was consistent with and modeled as lipid molecules. High-resolution mass spectral analysis suggests that there is a mixture of phosphatidylethanolamine and phosphatidylglycerol lipids present. Together, these data provide insights into the molecular details of the central hydroxylation reaction unique to the aerobic degradation of NA in Bacillus niacini.

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Oligomeric Changes Regulate Flavin Transfer in Two-Component FMN Reductases Involved in Sulfur Metabolism

Cited by 4 publications

References 41 publications

Current understanding of enzyme structure and function in bacterial two-component flavin-dependent desulfonases: Cleaving C–S bonds of organosulfur compounds

Current understanding of enzyme structure and function in bacterial two-component flavin-dependent desulfonases: Cleaving C–S bonds of organosulfur compounds

Functional and structural characterization of a thermostable flavin reductase from Geobacillus mahadii Geo-05

Structural and Functional Characterization of a Novel Class A Flavin Monooxygenase from Bacillus niacini

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