SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W85004244> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W85004244 endingPage "335" @default.
W85004244 startingPage "319" @default.
W85004244 abstract "After the discovery that anoxygenic, sulfidotrophic photosynthesis can be induced in cyanobacteria, sulfide- quinone reductase (SQR) was identified and characterized in Oscillatoria limnetica. This was closely followed by the study of SQR in the purple bacterium Rhodobacter capsulatus. Subsequently the genes of the purple bacterium and of two cyanobacteria, as well as of the hyperthermophilic hydrogen bacterium Aquifex aeolicus were cloned, sequenced and expressed in Escherichia coli, and the enzymes were characterized. Sequence analysis showed that SQR belongs to the disulfide oxidoreductase flavoprotein family, together with flavocytochrome c (FCC), another sulfide oxidizing enzyme. All the members of this family are characterized by two redox active cysteines which cooperate with the flavin in the redox cycle. A redox mechanism for SQR is proposed on the basis of site directed mutations of the cysteins and of other amino acid residues. Furthermore, a 3d-structural model is derived from the crystal structure of FCC. The search into the genomes accessible in the internet documents a widely spread occurrence of SQRgenes in bacteria. From the 19 completed canobacterial genomes, five contain the gene. Phylogenetic analysis classifies these genes into at least two clades – SQR-type I and SQR-type II. However, SQRlike enzymes are not confined to prokaryotes. They occur in the mitochondria of some fungi, as well as of all animals for which the genomes have been sequenced. From these eukarytotic SQR-like proteins (SQRDL) only the one of fission yeast was isolated and was enzymatically characterized. It is involved in heavy metal tolerance, and has therefore been denoted HMT2. Since sulfide has been indentified as a gaseous transmitter substance in animals, a possible role for SQRDL signalling is considered. Finally, phylogenetic scenarious for the descent of SQR from a common ancestor are discussed. Two observations are of special interest: (i) The mitochondrial SQRDL is of type II, although the endosymbiontic ancestor of mitochondria is considered to be a proteobacterium, which should have had a type I-SQR. (ii) The two essential cysteines among the flavoprotein family must have changed positions in the primary structure during evolution, thus constituting an example of functional plasticity within phylogenies." @default.
W85004244 created "2016-06-24" @default.
W85004244 creator A5002045405 @default.
W85004244 creator A5035516572 @default.
W85004244 date "2008-01-01" @default.
W85004244 modified "2023-10-17" @default.
W85004244 title "Sulfide Oxidation from Cyanobacteria to Humans: Sulfide–Quinone Oxidoreductase (SQR)" @default.
W85004244 cites W1538607061 @default.
W85004244 cites W1564269821 @default.
W85004244 cites W1593353682 @default.
W85004244 cites W1643234685 @default.
W85004244 cites W1809128349 @default.
W85004244 cites W1911807466 @default.
W85004244 cites W1984706424 @default.
W85004244 cites W1989681367 @default.
W85004244 cites W1991034999 @default.
W85004244 cites W2002593242 @default.
W85004244 cites W2008000048 @default.
W85004244 cites W2015451089 @default.
W85004244 cites W2024831813 @default.
W85004244 cites W2026465800 @default.
W85004244 cites W2028516053 @default.
W85004244 cites W2031881665 @default.
W85004244 cites W2035663056 @default.
W85004244 cites W2040924697 @default.
W85004244 cites W2045985595 @default.
W85004244 cites W2052262181 @default.
W85004244 cites W2055298722 @default.
W85004244 cites W2060293210 @default.
W85004244 cites W2061605138 @default.
W85004244 cites W2068554482 @default.
W85004244 cites W2073155592 @default.
W85004244 cites W2075992073 @default.
W85004244 cites W2079633240 @default.
W85004244 cites W2081902837 @default.
W85004244 cites W2085625753 @default.
W85004244 cites W2085644645 @default.
W85004244 cites W2105482032 @default.
W85004244 cites W2114076518 @default.
W85004244 cites W2119999475 @default.
W85004244 cites W2124919568 @default.
W85004244 cites W2125833305 @default.
W85004244 cites W2126286672 @default.
W85004244 cites W2143242500 @default.
W85004244 cites W2144362290 @default.
W85004244 cites W2161895615 @default.
W85004244 cites W2169271530 @default.
W85004244 cites W2171997124 @default.
W85004244 cites W2186291060 @default.
W85004244 cites W2408777465 @default.
W85004244 cites W37371246 @default.
W85004244 cites W4206367169 @default.
W85004244 cites W4235583278 @default.
W85004244 cites W632738296 @default.
W85004244 cites W65623955 @default.
W85004244 doi "https://doi.org/10.1007/978-1-4020-6863-8_16" @default.
W85004244 hasPublicationYear "2008" @default.
W85004244 type Work @default.
W85004244 sameAs 85004244 @default.
W85004244 citedByCount "35" @default.
W85004244 countsByYear W850042442012 @default.
W85004244 countsByYear W850042442014 @default.
W85004244 countsByYear W850042442015 @default.
W85004244 countsByYear W850042442016 @default.
W85004244 countsByYear W850042442017 @default.
W85004244 countsByYear W850042442018 @default.
W85004244 countsByYear W850042442019 @default.
W85004244 countsByYear W850042442020 @default.
W85004244 countsByYear W850042442021 @default.
W85004244 countsByYear W850042442022 @default.
W85004244 crossrefType "book-chapter" @default.
W85004244 hasAuthorship W85004244A5002045405 @default.
W85004244 hasAuthorship W85004244A5035516572 @default.
W85004244 hasConcept C104317684 @default.
W85004244 hasConcept C143065580 @default.
W85004244 hasConcept C181199279 @default.
W85004244 hasConcept C185592680 @default.
W85004244 hasConcept C2777400929 @default.
W85004244 hasConcept C2777850835 @default.
W85004244 hasConcept C2779268744 @default.
W85004244 hasConcept C2779669040 @default.
W85004244 hasConcept C33093398 @default.
W85004244 hasConcept C523546767 @default.
W85004244 hasConcept C54355233 @default.
W85004244 hasConcept C547475151 @default.
W85004244 hasConcept C55493867 @default.
W85004244 hasConcept C71995715 @default.
W85004244 hasConcept C86803240 @default.
W85004244 hasConceptScore W85004244C104317684 @default.
W85004244 hasConceptScore W85004244C143065580 @default.
W85004244 hasConceptScore W85004244C181199279 @default.
W85004244 hasConceptScore W85004244C185592680 @default.
W85004244 hasConceptScore W85004244C2777400929 @default.
W85004244 hasConceptScore W85004244C2777850835 @default.
W85004244 hasConceptScore W85004244C2779268744 @default.
W85004244 hasConceptScore W85004244C2779669040 @default.
W85004244 hasConceptScore W85004244C33093398 @default.
W85004244 hasConceptScore W85004244C523546767 @default.