Structure and kinetics of a monomeric glucosamine 6-phosphate deaminase

F  Vincent; G J  Davies; J A  Brannigan

doi:10.1074/jbc.M502131200

Structure and kinetics of a monomeric glucosamine 6-phosphate deaminase

F Vincent, G J Davies, J A Brannigan

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Glucosamine 6-phosphate is converted to fructose 6-phosphate and ammonia by the action of the enzyme glucosamine 6-phosphate deaminase, NagB. This reaction is the final step in the specific GlcNAc utilization pathway and thus decides the metabolic fate of GlcNAc. Sequence analyses suggest that the NagB "superfamily" consists of three main clusters: multimeric and allosterically regulated glucosamine-6-phosphate deaminases ( exemplified by Escherichia coli NagB), phosphogluconolactonases, and monomeric hexosamine-6-phosphate deaminases. Here we present the three-dimensional structure and kinetics of the first member of this latter group, the glucosamine-6-phosphate deaminase, NagB, from Bacillus subtilis. The structures were determined in ligand-complexed forms at resolutions around 1.4 &ANGS;. BsuNagB is monomeric in solution and as a consequence is active (k(cat) 28 s(-1), K-m(app) 0.13 mM) without the need for allosteric activators. A decrease in activity at high substrate concentrations may reflect substrate inhibition ( with K-i of &SIM; 4 mM). The structure completes the NagB superfamily structural landscape and thus allows further interrogation of genomic data in terms of the regulation of NagB and the metabolic fate(s) of glucosamine 6-phosphate.

Original language	English
Pages (from-to)	19649-19655
Number of pages	7
Journal	Journal of Biological Chemistry
Volume	280
Issue number	20
DOIs	https://doi.org/10.1074/jbc.M502131200
Publication status	Published - 20 May 2005

Keywords

ESCHERICHIA-COLI
N-ACETYLGLUCOSAMINE-6-PHOSPHATE DEACETYLASE
GLUCOSAMINE-6-PHOSPHATE DEAMINASE
6-PHOSPHOGLUCONOLACTONASE
PURIFICATION
REFINEMENT
MECHANISM
ISOMERASE
RESOLUTION
ENZYME

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10.1074/jbc.M502131200

http://dx.doi.org/10.1074/jbc.M502131200

Cite this

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title = "Structure and kinetics of a monomeric glucosamine 6-phosphate deaminase",

abstract = "Glucosamine 6-phosphate is converted to fructose 6-phosphate and ammonia by the action of the enzyme glucosamine 6-phosphate deaminase, NagB. This reaction is the final step in the specific GlcNAc utilization pathway and thus decides the metabolic fate of GlcNAc. Sequence analyses suggest that the NagB {"}superfamily{"} consists of three main clusters: multimeric and allosterically regulated glucosamine-6-phosphate deaminases ( exemplified by Escherichia coli NagB), phosphogluconolactonases, and monomeric hexosamine-6-phosphate deaminases. Here we present the three-dimensional structure and kinetics of the first member of this latter group, the glucosamine-6-phosphate deaminase, NagB, from Bacillus subtilis. The structures were determined in ligand-complexed forms at resolutions around 1.4 &ANGS;. BsuNagB is monomeric in solution and as a consequence is active (k(cat) 28 s(-1), K-m(app) 0.13 mM) without the need for allosteric activators. A decrease in activity at high substrate concentrations may reflect substrate inhibition ( with K-i of &SIM; 4 mM). The structure completes the NagB superfamily structural landscape and thus allows further interrogation of genomic data in terms of the regulation of NagB and the metabolic fate(s) of glucosamine 6-phosphate.",

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author = "F Vincent and Davies, {G J} and Brannigan, {J A}",

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AU - Vincent, F

AU - Davies, G J

AU - Brannigan, J A

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N2 - Glucosamine 6-phosphate is converted to fructose 6-phosphate and ammonia by the action of the enzyme glucosamine 6-phosphate deaminase, NagB. This reaction is the final step in the specific GlcNAc utilization pathway and thus decides the metabolic fate of GlcNAc. Sequence analyses suggest that the NagB "superfamily" consists of three main clusters: multimeric and allosterically regulated glucosamine-6-phosphate deaminases ( exemplified by Escherichia coli NagB), phosphogluconolactonases, and monomeric hexosamine-6-phosphate deaminases. Here we present the three-dimensional structure and kinetics of the first member of this latter group, the glucosamine-6-phosphate deaminase, NagB, from Bacillus subtilis. The structures were determined in ligand-complexed forms at resolutions around 1.4 &ANGS;. BsuNagB is monomeric in solution and as a consequence is active (k(cat) 28 s(-1), K-m(app) 0.13 mM) without the need for allosteric activators. A decrease in activity at high substrate concentrations may reflect substrate inhibition ( with K-i of &SIM; 4 mM). The structure completes the NagB superfamily structural landscape and thus allows further interrogation of genomic data in terms of the regulation of NagB and the metabolic fate(s) of glucosamine 6-phosphate.

AB - Glucosamine 6-phosphate is converted to fructose 6-phosphate and ammonia by the action of the enzyme glucosamine 6-phosphate deaminase, NagB. This reaction is the final step in the specific GlcNAc utilization pathway and thus decides the metabolic fate of GlcNAc. Sequence analyses suggest that the NagB "superfamily" consists of three main clusters: multimeric and allosterically regulated glucosamine-6-phosphate deaminases ( exemplified by Escherichia coli NagB), phosphogluconolactonases, and monomeric hexosamine-6-phosphate deaminases. Here we present the three-dimensional structure and kinetics of the first member of this latter group, the glucosamine-6-phosphate deaminase, NagB, from Bacillus subtilis. The structures were determined in ligand-complexed forms at resolutions around 1.4 &ANGS;. BsuNagB is monomeric in solution and as a consequence is active (k(cat) 28 s(-1), K-m(app) 0.13 mM) without the need for allosteric activators. A decrease in activity at high substrate concentrations may reflect substrate inhibition ( with K-i of &SIM; 4 mM). The structure completes the NagB superfamily structural landscape and thus allows further interrogation of genomic data in terms of the regulation of NagB and the metabolic fate(s) of glucosamine 6-phosphate.

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KW - 6-PHOSPHOGLUCONOLACTONASE

KW - PURIFICATION

KW - REFINEMENT

KW - MECHANISM

KW - ISOMERASE

KW - RESOLUTION

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