Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases

Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases

p-Hydroxybenzoate hydroxylase (PHBH; EC 1.14.13.2) is a microbial group A flavoprotein monooxygenase that catalyzes the ortho-hydroxylation of 4-hydroxybenzoate to 3,4-dihydroxybenzoate with the stoichiometric consumption of NAD(P)H and oxygen. PHBH and related enzymes lack a canonical NAD(P)H-bindi...

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Main Authors: Adrie H. Westphal, Dirk Tischler, Florian Heinke, Sarah Hofmann, Janosch A. D. Gröning, Dirk Labudde, Willem J. H. van Berkel
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-12-01
Series:Frontiers in Microbiology
Subjects:
Actinobacteria
coenzyme specificity
fingerprint sequence
flavoprotein
monooxygenase
NAD(P)H
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2018.03050/full
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spelling doaj-188737b94c7e433d9b94a2d55e125f812020-11-24T21:15:32ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2018-12-01910.3389/fmicb.2018.03050423363Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein MonooxygenasesAdrie H. Westphal0Dirk Tischler1Florian Heinke2Sarah Hofmann3Janosch A. D. Gröning4Dirk Labudde5Willem J. H. van Berkel6Laboratory of Biochemistry, Wageningen University and Research, Wageningen, NetherlandsInterdisziplinäres Ökologisches Zentrum, Technische Universität Bergakademie Freiberg, Freiberg, GermanyBioinformatics Group Mittweida, University of Applied Sciences Mittweida, Mittweida, GermanyInterdisziplinäres Ökologisches Zentrum, Technische Universität Bergakademie Freiberg, Freiberg, GermanyInterdisziplinäres Ökologisches Zentrum, Technische Universität Bergakademie Freiberg, Freiberg, GermanyBioinformatics Group Mittweida, University of Applied Sciences Mittweida, Mittweida, GermanyLaboratory of Biochemistry, Wageningen University and Research, Wageningen, Netherlandsp-Hydroxybenzoate hydroxylase (PHBH; EC 1.14.13.2) is a microbial group A flavoprotein monooxygenase that catalyzes the ortho-hydroxylation of 4-hydroxybenzoate to 3,4-dihydroxybenzoate with the stoichiometric consumption of NAD(P)H and oxygen. PHBH and related enzymes lack a canonical NAD(P)H-binding domain and the way they interact with the pyridine nucleotide coenzyme has remained a conundrum. Previously, we identified a surface exposed protein segment of PHBH from Pseudomonas fluorescens involved in NADPH binding. Here, we report the first amino acid sequences of NADH-preferring PHBHs and a phylogenetic analysis of putative PHBHs identified in currently available bacterial genomes. It was found that PHBHs group into three clades consisting of NADPH-specific, NAD(P)H-dependent and NADH-preferring enzymes. The latter proteins frequently occur in Actinobacteria. To validate the results, we produced several putative PHBHs in Escherichia coli and confirmed their predicted coenzyme preferences. Based on phylogeny, protein energy profiling and lifestyle of PHBH harboring bacteria we propose that the pyridine nucleotide coenzyme specificity of PHBH emerged through adaptive evolution and that the NADH-preferring enzymes are the older versions of PHBH. Structural comparison and distance tree analysis of group A flavoprotein monooxygenases indicated that a similar protein segment as being responsible for the pyridine nucleotide coenzyme specificity of PHBH is involved in determining the pyridine nucleotide coenzyme specificity of the other group A members.https://www.frontiersin.org/article/10.3389/fmicb.2018.03050/fullActinobacteriacoenzyme specificityfingerprint sequenceflavoproteinmonooxygenaseNAD(P)H
collection DOAJ
language English
format Article
sources DOAJ
author Adrie H. Westphal
Dirk Tischler
Florian Heinke
Sarah Hofmann
Janosch A. D. Gröning
Dirk Labudde
Willem J. H. van Berkel
spellingShingle Adrie H. Westphal
Dirk Tischler
Florian Heinke
Sarah Hofmann
Janosch A. D. Gröning
Dirk Labudde
Willem J. H. van Berkel
Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases
Frontiers in Microbiology
Actinobacteria
coenzyme specificity
fingerprint sequence
flavoprotein
monooxygenase
NAD(P)H
author_facet Adrie H. Westphal
Dirk Tischler
Florian Heinke
Sarah Hofmann
Janosch A. D. Gröning
Dirk Labudde
Willem J. H. van Berkel
author_sort Adrie H. Westphal
title Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases
title_short Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases
title_full Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases
title_fullStr Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases
title_full_unstemmed Pyridine Nucleotide Coenzyme Specificity of p-Hydroxybenzoate Hydroxylase and Related Flavoprotein Monooxygenases
title_sort pyridine nucleotide coenzyme specificity of p-hydroxybenzoate hydroxylase and related flavoprotein monooxygenases
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2018-12-01
description p-Hydroxybenzoate hydroxylase (PHBH; EC 1.14.13.2) is a microbial group A flavoprotein monooxygenase that catalyzes the ortho-hydroxylation of 4-hydroxybenzoate to 3,4-dihydroxybenzoate with the stoichiometric consumption of NAD(P)H and oxygen. PHBH and related enzymes lack a canonical NAD(P)H-binding domain and the way they interact with the pyridine nucleotide coenzyme has remained a conundrum. Previously, we identified a surface exposed protein segment of PHBH from Pseudomonas fluorescens involved in NADPH binding. Here, we report the first amino acid sequences of NADH-preferring PHBHs and a phylogenetic analysis of putative PHBHs identified in currently available bacterial genomes. It was found that PHBHs group into three clades consisting of NADPH-specific, NAD(P)H-dependent and NADH-preferring enzymes. The latter proteins frequently occur in Actinobacteria. To validate the results, we produced several putative PHBHs in Escherichia coli and confirmed their predicted coenzyme preferences. Based on phylogeny, protein energy profiling and lifestyle of PHBH harboring bacteria we propose that the pyridine nucleotide coenzyme specificity of PHBH emerged through adaptive evolution and that the NADH-preferring enzymes are the older versions of PHBH. Structural comparison and distance tree analysis of group A flavoprotein monooxygenases indicated that a similar protein segment as being responsible for the pyridine nucleotide coenzyme specificity of PHBH is involved in determining the pyridine nucleotide coenzyme specificity of the other group A members.
topic Actinobacteria
coenzyme specificity
fingerprint sequence
flavoprotein
monooxygenase
NAD(P)H
url https://www.frontiersin.org/article/10.3389/fmicb.2018.03050/full
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AT florianheinke pyridinenucleotidecoenzymespecificityofphydroxybenzoatehydroxylaseandrelatedflavoproteinmonooxygenases
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AT janoschadgroning pyridinenucleotidecoenzymespecificityofphydroxybenzoatehydroxylaseandrelatedflavoproteinmonooxygenases
AT dirklabudde pyridinenucleotidecoenzymespecificityofphydroxybenzoatehydroxylaseandrelatedflavoproteinmonooxygenases
AT willemjhvanberkel pyridinenucleotidecoenzymespecificityofphydroxybenzoatehydroxylaseandrelatedflavoproteinmonooxygenases
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