SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2783187641> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2783187641 endingPage "1143" @default.
W2783187641 startingPage "1130" @default.
W2783187641 abstract "The well-studied enterobacterium Escherichia coli present in the human gut can reduce trimethylamine N-oxide (TMAO) to trimethylamine during anaerobic respiration. The TMAO reductase TorA is a monomeric, bis-molybdopterin guanine dinucleotide (bis-MGD) cofactor-containing enzyme that belongs to the dimethyl sulfoxide reductase family of molybdoenzymes. We report on a system for the in vitro reconstitution of TorA with molybdenum cofactors (Moco) from different sources. Higher TMAO reductase activities for TorA were obtained when using Moco sources containing a sulfido ligand at the molybdenum atom. For the first time, we were able to isolate functional bis-MGD from Rhodobacter capsulatus formate dehydrogenase (FDH), which remained intact in its isolated state and after insertion into apo-TorA yielded a highly active enzyme. Combined characterizations of the reconstituted TorA enzymes by electron paramagnetic resonance spectroscopy and direct electrochemistry emphasize that TorA activity can be modified by changes in the Mo coordination sphere. The combination of these results together with studies of amino acid exchanges at the active site led us to propose a novel model for binding of the substrate to the molybdenum atom of TorA." @default.
W2783187641 created "2018-01-26" @default.
W2783187641 creator A5003366504 @default.
W2783187641 creator A5020512560 @default.
W2783187641 creator A5023064900 @default.
W2783187641 creator A5049387695 @default.
W2783187641 creator A5050794626 @default.
W2783187641 creator A5055454935 @default.
W2783187641 creator A5072815537 @default.
W2783187641 creator A5082927421 @default.
W2783187641 creator A5088547780 @default.
W2783187641 date "2018-01-31" @default.
W2783187641 modified "2023-10-14" @default.
W2783187641 title "Modulating the Molybdenum Coordination Sphere of <i>Escherichia coli</i> Trimethylamine <i>N</i>-Oxide Reductase" @default.
W2783187641 cites W103226267 @default.
W2783187641 cites W1483995801 @default.
W2783187641 cites W1521628010 @default.
W2783187641 cites W1529114963 @default.
W2783187641 cites W1965237457 @default.
W2783187641 cites W1967968024 @default.
W2783187641 cites W1985556019 @default.
W2783187641 cites W1986582989 @default.
W2783187641 cites W1990034672 @default.
W2783187641 cites W1998770390 @default.
W2783187641 cites W2008013448 @default.
W2783187641 cites W2008044452 @default.
W2783187641 cites W2015440468 @default.
W2783187641 cites W2015646183 @default.
W2783187641 cites W2025639772 @default.
W2783187641 cites W2030456027 @default.
W2783187641 cites W2031815017 @default.
W2783187641 cites W2033865792 @default.
W2783187641 cites W2037603933 @default.
W2783187641 cites W2043570990 @default.
W2783187641 cites W2044403646 @default.
W2783187641 cites W2045245826 @default.
W2783187641 cites W2047876516 @default.
W2783187641 cites W2053360749 @default.
W2783187641 cites W2056760514 @default.
W2783187641 cites W2058351048 @default.
W2783187641 cites W2065434867 @default.
W2783187641 cites W2068116373 @default.
W2783187641 cites W2069852588 @default.
W2783187641 cites W2073070966 @default.
W2783187641 cites W2077745185 @default.
W2783187641 cites W2079181465 @default.
W2783187641 cites W2080785955 @default.
W2783187641 cites W2084250862 @default.
W2783187641 cites W2087092102 @default.
W2783187641 cites W2088364523 @default.
W2783187641 cites W2088880799 @default.
W2783187641 cites W2094515383 @default.
W2783187641 cites W2100099608 @default.
W2783187641 cites W2131163905 @default.
W2783187641 cites W2146051607 @default.
W2783187641 cites W2152418086 @default.
W2783187641 cites W2226905828 @default.
W2783187641 cites W2238814103 @default.
W2783187641 cites W2317547822 @default.
W2783187641 cites W2333868265 @default.
W2783187641 cites W2403823177 @default.
W2783187641 cites W2587127529 @default.
W2783187641 cites W2600315588 @default.
W2783187641 cites W2602407280 @default.
W2783187641 cites W2611750376 @default.
W2783187641 cites W4239563346 @default.
W2783187641 cites W4240178132 @default.
W2783187641 cites W4245399940 @default.
W2783187641 cites W575863030 @default.
W2783187641 doi "https://doi.org/10.1021/acs.biochem.7b01108" @default.
W2783187641 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29334455" @default.
W2783187641 hasPublicationYear "2018" @default.
W2783187641 type Work @default.
W2783187641 sameAs 2783187641 @default.
W2783187641 citedByCount "20" @default.
W2783187641 countsByYear W27831876412018 @default.
W2783187641 countsByYear W27831876412019 @default.
W2783187641 countsByYear W27831876412020 @default.
W2783187641 countsByYear W27831876412021 @default.
W2783187641 countsByYear W27831876412022 @default.
W2783187641 countsByYear W27831876412023 @default.
W2783187641 crossrefType "journal-article" @default.
W2783187641 hasAuthorship W2783187641A5003366504 @default.
W2783187641 hasAuthorship W2783187641A5020512560 @default.
W2783187641 hasAuthorship W2783187641A5023064900 @default.
W2783187641 hasAuthorship W2783187641A5049387695 @default.
W2783187641 hasAuthorship W2783187641A5050794626 @default.
W2783187641 hasAuthorship W2783187641A5055454935 @default.
W2783187641 hasAuthorship W2783187641A5072815537 @default.
W2783187641 hasAuthorship W2783187641A5082927421 @default.
W2783187641 hasAuthorship W2783187641A5088547780 @default.
W2783187641 hasBestOaLocation W27831876414 @default.
W2783187641 hasConcept C104317684 @default.
W2783187641 hasConcept C121612415 @default.
W2783187641 hasConcept C134651460 @default.
W2783187641 hasConcept C181199279 @default.
W2783187641 hasConcept C185592680 @default.
W2783187641 hasConcept C197957613 @default.