dihydrogen oxidation
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2020 ◽  
Vol 9 (1) ◽  
pp. 30
Author(s):  
Marc Cozannet ◽  
Guillaume Borrel ◽  
Erwan Roussel ◽  
Yann Moalic ◽  
Maxime Allioux ◽  
...  

Members of the archaeal order Methanomassiliicoccales are methanogens mainly associated with animal digestive tracts. However, environmental members remain poorly characterized as no representatives not associated with a host have been cultivated so far. In this study, metabarcoding screening combined with quantitative PCR analyses on a collection of diverse non-host-associated environmental samples revealed that Methanomassiliicoccales were very scarce in most terrestrial and aquatic ecosystems. Relative abundance of Methanomassiliicoccales and substrates/products of methanogenesis were monitored during incubation of environmental slurries. A sediment slurry enriched in Methanomassiliicoccales was obtained from a freshwater sample. It allowed the reconstruction of a high-quality metagenome-assembled genome (MAG) corresponding to a new candidate species, for which we propose the name of Candidatus ‘Methanomassiliicoccus armoricus MXMAG1’. Comparison of the annotated genome of MXMAG1 with the published genomes and MAGs from Methanomassiliicoccales belonging to the 2 known clades (‘free-living’/non-host-associated environmental clade and ‘host-associated’/digestive clade) allowed us to explore the putative physiological traits of Candidatus ‘M. armoricus MXMAG1’. As expected, Ca. ‘Methanomassiliicoccus armoricus MXMAG1’ had the genetic potential to produce methane by reduction of methyl compounds and dihydrogen oxidation. This MAG encodes for several putative physiological and stress response adaptations, including biosynthesis of trehalose (osmotic and temperature regulations), agmatine production (pH regulation), and arsenic detoxication, by reduction and excretion of arsenite, a mechanism that was only present in the ‘free-living’ clade. An analysis of co-occurrence networks carried out on environmental samples and slurries also showed that Methanomassiliicoccales detected in terrestrial and aquatic ecosystems were strongly associated with acetate and dihydrogen producing bacteria commonly found in digestive habitats and which have been reported to form syntrophic relationships with methanogens.


Inorganics ◽  
2019 ◽  
Vol 7 (11) ◽  
pp. 135
Author(s):  
Anna Rovaletti ◽  
Maurizio Bruschi ◽  
Giorgio Moro ◽  
Ugo Cosentino ◽  
Claudio Greco ◽  
...  

The Mo/Cu-dependent CO dehydrogenase from O. carboxydovorans is an enzyme that is able to catalyse CO oxidation to CO 2 ; moreover, it also expresses hydrogenase activity, as it is able to oxidize H 2 . Here, we have studied the dihydrogen oxidation catalysis by this enzyme using QM/MM calculations. Our results indicate that the equatorial oxo ligand of Mo is the best suited base for catalysis. Moreover, extraction of the first proton from H 2 by means of this basic centre leads to the formation of a Mo–OH–Cu I H hydride that allows for the stabilization of the copper hydride, otherwise known to be very unstable. In light of our results, two mechanisms for the hydrogenase activity of the enzyme are proposed. The first reactive channel depends on protonation of the sulphur atom of a Cu-bound cysteine residues, which appears to favour the binding and activation of the substrate. The second reactive channel involves a frustrated Lewis pair, formed by the equatorial oxo group bound to Mo and by the copper centre. In this case, no binding of the hydrogen molecule to the Cu center is observed but once H 2 enters into the active site, it can be split following a low-energy path.


2014 ◽  
Vol 126 (37) ◽  
pp. 10080-10083 ◽  
Author(s):  
Elliot J. Lawrence ◽  
Thomas J. Herrington ◽  
Andrew E. Ashley ◽  
Gregory G. Wildgoose

2014 ◽  
Vol 53 (37) ◽  
pp. 9922-9925 ◽  
Author(s):  
Elliot J. Lawrence ◽  
Thomas J. Herrington ◽  
Andrew E. Ashley ◽  
Gregory G. Wildgoose

ChemCatChem ◽  
2012 ◽  
Vol 4 (11) ◽  
pp. 1723-1724 ◽  
Author(s):  
Joseph A. Wright ◽  
Christopher J. Pickett

1995 ◽  
Vol 30 (6) ◽  
pp. 351-355 ◽  
Author(s):  
Jack Chien Chen ◽  
Leonard E. Mortenson ◽  
Lance C. Seefeldt

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