SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892015537> ?p ?o ?g. }

Showing items 1 to 75 of 75 with 100 items per page.

W2892015537 abstract "Nitrous oxide (N2O) is an important greenhouse gas that is also responsible for stratospheric ozone depletion [1, 2]. Human activity is the main source of N2O due to the use of fertilisers in agriculture. Nitrous oxide reductase (N2OR) is the only enzyme to destroy N2O as part of a biological process termed denitrification. This enzyme has a unique catalytic CuZ centre, an electron transfer CuA centre and a high demand for Cu with 12 atoms required per functional dimer. A previous transcriptomic study revealed that two putative Cu chaperones, ScoB and PCuC were upregulated under Cu limiting conditions [3]. Here we demonstrate that ScoB/PCuC is a high-affinity Cu system essential for N2O respiration.Deletion of scoB causes N2O accumulation under anoxic and Cu-limited growth. N2O respiration could be restored complementation in trans with recombinant full-length, or soluble, periplasmic ScoB proteins (ScoBFL and ScoBsol, respectively). ScoBsol was biochemically characterised and found to be a monomeric protein of _25 kDa that can bind Cu1+ or Cu2+ with an apparent KD value within the subfemtomolar range. In contrast, PCuC is a multidomain protein with a Ycn-like N-terminal domain [4], and a PCuAC-like C-terminal domain [5]. Recombinant periplasmic proteins for each individual domain and full-length protein were generated (i.e., PCuCNt, PCuCCt and PCuCFL). The pcuC deletion strain has an N2O-genic phenotype. Only complementation in trans with PCuCFL restored N2O reduction under anaerobic and Cu-limited conditions.In addition, the crystallographic structure of Cu-bound PCuCNt was solved to a resolution of 1.5 A revealing a trimeric protein of _56 kDa with a novel histidine brace metal binding site. PCuCNt can bind 1+ or 2+ and competition assays with 1+ chelators revealed that metallation occurs with femtomolar affinity. Analysis of YcnI-type proteins revealed the presence of two defined families. Family A contains a HX22HX101W consensus Cu-binding motif and was principally found among alphaproteobacteria, while Family B contain a HX22DX90WX13H motif and are distributed in actinobacteria and firmicutes. The Cu-bound structure of PCuCCt was also solved to a resolution of 1.6 A and reveals a _18 kDa monomer that contains a defined H(M)X10MX21HXM Cu-binding site that can bind Cu1+ with subfemtomolar affinity. Further biochemical studies of native PCuC confirmed that the full-length protein forms a _100 kDa homotrimer in solution regardless of metallation state, with the N-terminal domain driving oligomerization exposing individual C-terminal domains to bulk solution through a flexible linker region. Each trimer can bind up to 6 Cu atoms with binding affinities within the subfemtomolar range.Finally, the maturation of the Cu centres of N2OR was studied in P. denitrificans WT, scoB and pcuC deletion strains. A periplasmic and readily isolatable affinity-tagged N2OR protein was expressed in cis under two different Cu regimes in P. denitrificans. N2OR purified from WT cells grown under anaerobic and Cu-limited conditions only contained a recognisable CuA centre. However, N2OR from scoB and pcuC mutants lacked both Cu-centres, had significantly lower Cu content and impaired enzymatic activity. A model for the metallation process of the CuA centre of N2OR by the high affinity Cu-maturation system ScoB/PCuC has been proposed." @default.
W2892015537 created "2018-09-27" @default.
W2892015537 creator A5035974335 @default.
W2892015537 date "2018-08-01" @default.
W2892015537 modified "2023-09-27" @default.
W2892015537 title "Copper maturation of nitrous oxide reductase in Paracoccus denitrificans" @default.
W2892015537 hasPublicationYear "2018" @default.
W2892015537 type Work @default.
W2892015537 sameAs 2892015537 @default.
W2892015537 citedByCount "0" @default.
W2892015537 crossrefType "dissertation" @default.
W2892015537 hasAuthorship W2892015537A5035974335 @default.
W2892015537 hasConcept C104317684 @default.
W2892015537 hasConcept C134651460 @default.
W2892015537 hasConcept C143065580 @default.
W2892015537 hasConcept C165474305 @default.
W2892015537 hasConcept C178790620 @default.
W2892015537 hasConcept C181199279 @default.
W2892015537 hasConcept C185592680 @default.
W2892015537 hasConcept C188082640 @default.
W2892015537 hasConcept C201663137 @default.
W2892015537 hasConcept C2776562990 @default.
W2892015537 hasConcept C2778710519 @default.
W2892015537 hasConcept C2779546866 @default.
W2892015537 hasConcept C2780640746 @default.
W2892015537 hasConcept C2781341435 @default.
W2892015537 hasConcept C537208039 @default.
W2892015537 hasConcept C547475151 @default.
W2892015537 hasConcept C55493867 @default.
W2892015537 hasConcept C73593433 @default.
W2892015537 hasConceptScore W2892015537C104317684 @default.
W2892015537 hasConceptScore W2892015537C134651460 @default.
W2892015537 hasConceptScore W2892015537C143065580 @default.
W2892015537 hasConceptScore W2892015537C165474305 @default.
W2892015537 hasConceptScore W2892015537C178790620 @default.
W2892015537 hasConceptScore W2892015537C181199279 @default.
W2892015537 hasConceptScore W2892015537C185592680 @default.
W2892015537 hasConceptScore W2892015537C188082640 @default.
W2892015537 hasConceptScore W2892015537C201663137 @default.
W2892015537 hasConceptScore W2892015537C2776562990 @default.
W2892015537 hasConceptScore W2892015537C2778710519 @default.
W2892015537 hasConceptScore W2892015537C2779546866 @default.
W2892015537 hasConceptScore W2892015537C2780640746 @default.
W2892015537 hasConceptScore W2892015537C2781341435 @default.
W2892015537 hasConceptScore W2892015537C537208039 @default.
W2892015537 hasConceptScore W2892015537C547475151 @default.
W2892015537 hasConceptScore W2892015537C55493867 @default.
W2892015537 hasConceptScore W2892015537C73593433 @default.
W2892015537 hasLocation W28920155371 @default.
W2892015537 hasOpenAccess W2892015537 @default.
W2892015537 hasPrimaryLocation W28920155371 @default.
W2892015537 hasRelatedWork W1947883224 @default.
W2892015537 hasRelatedWork W1966581158 @default.
W2892015537 hasRelatedWork W1967838178 @default.
W2892015537 hasRelatedWork W1975018574 @default.
W2892015537 hasRelatedWork W2012416983 @default.
W2892015537 hasRelatedWork W2013557222 @default.
W2892015537 hasRelatedWork W2021360741 @default.
W2892015537 hasRelatedWork W2030813320 @default.
W2892015537 hasRelatedWork W2036985332 @default.
W2892015537 hasRelatedWork W2043771980 @default.
W2892015537 hasRelatedWork W2049690534 @default.
W2892015537 hasRelatedWork W2062044270 @default.
W2892015537 hasRelatedWork W2064386717 @default.
W2892015537 hasRelatedWork W2072324770 @default.
W2892015537 hasRelatedWork W2164830519 @default.
W2892015537 hasRelatedWork W2326791154 @default.
W2892015537 hasRelatedWork W2593475362 @default.
W2892015537 hasRelatedWork W2766034761 @default.
W2892015537 hasRelatedWork W3197503349 @default.
W2892015537 hasRelatedWork W2741914981 @default.
W2892015537 isParatext "false" @default.
W2892015537 isRetracted "false" @default.
W2892015537 magId "2892015537" @default.
W2892015537 workType "dissertation" @default.