Tuning of p<i>K<sub>a</sub></i> values activates substrates in flavin-dependent aromatic hydroxylases.
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Abstract |
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Hydroxylation of substituted phenols by flavin-dependent monooxygenases is the first step of their biotransformation in various microorganisms. The reaction is thought to proceed via electrophilic aromatic substitution, catalyzed by enzymatic deprotonation of substrate, in single-component hydroxylases that use flavin as a cofactor (group A). However, two-component hydroxylases (group D), which use reduced flavin as a co-substrate, are less amenable to spectroscopic investigation. Herein, we employed F NMR in conjunction with fluorinated substrate analogs to directly measure p values and to monitor protein events in hydroxylase active sites. We found that the single-component monooxygenase 3-hydroxybenzoate 6-hydroxylase (3HB6H) depresses the p of the bound substrate analog 4-fluoro-3-hydroxybenzoate (4F3HB) by 1.6 pH units, consistent with previously proposed mechanisms. F NMR was applied anaerobically to the two-component monooxygenase 4-hydroxyphenylacetate 3-hydroxylase (HPAH), revealing depression of the p of 3-fluoro-4-hydroxyphenylacetate by 2.5 pH units upon binding to the C component of HPAH. F NMR also revealed a p of 8.7 ± 0.05 that we attributed to an active-site residue involved in deprotonating bound substrate, and assigned to His-120 based on studies of protein variants. Thus, in both types of hydroxylases, we confirmed that binding favors the phenolate form of substrate. The 9 and 14 kJ/mol magnitudes of the effects for 3HB6H and HPAH-C, respectively, are consistent with p tuning by one or more H-bonding interactions. Our implementation of F NMR in anaerobic samples is applicable to other two-component flavin-dependent hydroxylases and promises to expand our understanding of their catalytic mechanisms. |
Year of Publication |
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2020
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Journal |
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The Journal of biological chemistry
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Volume |
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295
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Issue |
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12
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Number of Pages |
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3965-3981
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Date Published |
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2020
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ISSN Number |
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0021-9258
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URL |
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https://linkinghub.elsevier.com/retrieve/pii/S0021-9258(17)48788-6
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DOI |
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10.1074/jbc.RA119.011884
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Short Title |
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J Biol Chem
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