One fold, two functions: cytochrome P460 and cytochrome c′-β from the methanotroph Methylococcus capsulatus (Bath)

Chemical Science Volume 10 Issue 10 Page 3031-3041 published_at 2019-01-21

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Title ( eng )	One fold, two functions: cytochrome P460 and cytochrome c′-β from the methanotroph Methylococcus capsulatus (Bath)
Creator	Adams Hannah R. Krewson Callie Vardanega Jenny E. Fujii Sotaro Moreno Tadeo Chicano Sambongi Yoshihiro Svistunenko Dimitri Paps Jordi Andrew Colin R. Hough Michael A.
Source Title	Chemical Science
Volume	10
Issue	10
Start Page	3031
End Page	3041
Abstract	Nature is adept at utilising highly similar protein folds to carry out very different functions, yet the mechanisms by which this functional divergence occurs remain poorly characterised. In certain methanotrophic bacteria, two homologous pentacoordinate c-type heme proteins have been identified: a cytochrome P460 (cyt P460) and a cytochrome c0-b (cyt cp-b). Cytochromes P460 are able to convert hydroxylamine to nitrous oxide (N2O), a potent greenhouse gas. This reactivity is similar to that of hydroxylamine oxidoreductase (HAO), which is a key enzyme in nitrifying and methanotrophic bacteria. Cyt P460 and HAO both have unusual protein-heme cross-links, formed by a Tyr residue in HAO and a Lys in cyt P460. In contrast, cyts cp-b (the only known cytochromes c0 with a b-sheet fold) lack this crosslink and appears to be optimized for binding non-polar molecules (including NO and CO) without enzymatic conversion. Our bioinformatics analysis supports the proposal that cyt cp-b may have evolved from cyt P460 via a gene duplication event. Using high-resolution X-ray crystallography, UV-visible absorption, electron paramagnetic resonance (EPR) and resonance Raman spectroscopy, we have characterized the overall protein folding and active site structures of cyt cp-b and cyt P460 from the obligate methanotroph, Methylococcus capsulatus (Bath). These proteins display a similar b-sheet protein fold, together with a pattern of changes to the heme pocket regions and localised tertiary structure that have converted a hydroxylamine oxidizing enzyme into a gas-binding protein. Structural comparisons provide insights relevant to enzyme redesign for synthetic enzymology and engineering of gas sensor proteins. We also show the widespread occurrence of cyts cp-b and characterise their phylogeny.
Descriptions	CRA acknowledges funding from the National Science Foundation (grant MCB 1411963). TMC was supported by Leverhulme Trust award RPG-2014-355 to MAH.
Language	eng
Resource Type	journal article
Publisher	Royal Society of Chemistry
Date of Issued	2019-01-21
Rights	© The Royal Society of Chemistry 2019 This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.
Publish Type	Version of Record
Access Rights	open access
Source Identifier	Electronic supplementary information (ESI) available. See DOI: 10.1039/c8sc05210g [ISSN] 2041-6520 [ISSN] 2041-6539 [DOI] 10.1039/C8SC05210G [DOI] https://doi.org/10.1039/C8SC05210G