SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2014512561> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W2014512561 endingPage "184" @default.
W2014512561 startingPage "179" @default.
W2014512561 abstract "Cytochrome P450 CYP17A1 catalyzes a series of reactions that lie at the intersection of corticoid and androgen biosynthesis and thus occupies an essential role in steroid hormone metabolism. This multifunctional enzyme catalyzes the 17α-hydroxylation of Δ4- and Δ5-steroids progesterone and pregnenolone to form the corresponding 17α-hydroxy products through its hydroxylase activity, and a subsequent 17,20-carbon-carbon scission of pregnene-side chain produce the androgens androstenedione (AD) and dehydroepiandrosterone (DHEA). While the former hydroxylation reaction is believed to proceed through a conventional Compound I rebound mechanism, it has been suggested that the latter carbon cleavage is initiated by an iron-peroxy intermediate. We report on the role of Thr306 in CYP17 catalysis. Thr306 is a member of the conserved acid/alcohol pair thought to be essential for the efficient delivery of protons required for hydroperoxoanion heterolysis and formation of Compound I in the cytochromes P450. Wild type and T306A CYP17A1 self-assembled in Nanodiscs were used to quantitate turnover and coupling efficiencies of CYP17's physiological Δ4- and Δ5-substrates. We observed that T306A co-incorporated in Nanodiscs with its redox partner cytochrome P450 oxidoreductase, coupled NADPH only by 0.9% and 0.7% compared to the wild type (97% and 22%) during the conversion of pregnenolone and progesterone, respectively, to the corresponding 17-OH products. Despite increased oxidation of pyridine nucleotide, hydroxylase activity was drastically diminished in the T306A mutant, suggesting a high degree of uncoupling in which reducing equivalents and protons are funneled into non-productive pathways. This is similar to previous work with other P450 catalyzed hydroxylation. However, catalysis of carbon-carbon bond scission by the T306A mutant was largely unimpeded by disruption of the CYP17A1 acid-alcohol pair. The unique response of CYP17A1 lyase activity to mutation of Thr306 is consistent with a reactive intermediate formed independently of proton delivery in the active site, and supports involvement of a nucleophilic peroxo-anion rather than the traditional Compound I in catalysis." @default.
W2014512561 created "2016-06-24" @default.
W2014512561 creator A5031988847 @default.
W2014512561 creator A5065911826 @default.
W2014512561 creator A5069907276 @default.
W2014512561 creator A5081446055 @default.
W2014512561 creator A5083285181 @default.
W2014512561 date "2014-01-01" @default.
W2014512561 modified "2023-10-13" @default.
W2014512561 title "Active site proton delivery and the lyase activity of human CYP17A1" @default.
W2014512561 cites W1511153971 @default.
W2014512561 cites W1532212858 @default.
W2014512561 cites W1534922012 @default.
W2014512561 cites W1547482025 @default.
W2014512561 cites W1582240361 @default.
W2014512561 cites W1891933871 @default.
W2014512561 cites W1927579840 @default.
W2014512561 cites W1971539282 @default.
W2014512561 cites W1977067439 @default.
W2014512561 cites W1978628263 @default.
W2014512561 cites W1980255186 @default.
W2014512561 cites W1980878239 @default.
W2014512561 cites W1982956495 @default.
W2014512561 cites W1983302428 @default.
W2014512561 cites W1985280444 @default.
W2014512561 cites W1989300914 @default.
W2014512561 cites W1992581513 @default.
W2014512561 cites W2005574282 @default.
W2014512561 cites W2024092408 @default.
W2014512561 cites W2024908060 @default.
W2014512561 cites W2030859870 @default.
W2014512561 cites W203285984 @default.
W2014512561 cites W2040738478 @default.
W2014512561 cites W2042939317 @default.
W2014512561 cites W2057727568 @default.
W2014512561 cites W2059850722 @default.
W2014512561 cites W2062008768 @default.
W2014512561 cites W2065278032 @default.
W2014512561 cites W2067064372 @default.
W2014512561 cites W2077621515 @default.
W2014512561 cites W2079847745 @default.
W2014512561 cites W2081701860 @default.
W2014512561 cites W2089972450 @default.
W2014512561 cites W2125670057 @default.
W2014512561 cites W2126733133 @default.
W2014512561 cites W2129876849 @default.
W2014512561 cites W2131341177 @default.
W2014512561 cites W2141471274 @default.
W2014512561 cites W2144860443 @default.
W2014512561 cites W2156339092 @default.
W2014512561 cites W2164235204 @default.
W2014512561 cites W2319340717 @default.
W2014512561 cites W4246606651 @default.
W2014512561 cites W80056783 @default.
W2014512561 doi "https://doi.org/10.1016/j.bbrc.2013.11.094" @default.
W2014512561 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3912944" @default.
W2014512561 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24299954" @default.
W2014512561 hasPublicationYear "2014" @default.
W2014512561 type Work @default.
W2014512561 sameAs 2014512561 @default.
W2014512561 citedByCount "53" @default.
W2014512561 countsByYear W20145125612014 @default.
W2014512561 countsByYear W20145125612015 @default.
W2014512561 countsByYear W20145125612016 @default.
W2014512561 countsByYear W20145125612017 @default.
W2014512561 countsByYear W20145125612018 @default.
W2014512561 countsByYear W20145125612019 @default.
W2014512561 countsByYear W20145125612020 @default.
W2014512561 countsByYear W20145125612021 @default.
W2014512561 countsByYear W20145125612022 @default.
W2014512561 countsByYear W20145125612023 @default.
W2014512561 crossrefType "journal-article" @default.
W2014512561 hasAuthorship W2014512561A5031988847 @default.
W2014512561 hasAuthorship W2014512561A5065911826 @default.
W2014512561 hasAuthorship W2014512561A5069907276 @default.
W2014512561 hasAuthorship W2014512561A5081446055 @default.
W2014512561 hasAuthorship W2014512561A5083285181 @default.
W2014512561 hasBestOaLocation W20145125612 @default.
W2014512561 hasConcept C142716871 @default.
W2014512561 hasConcept C181199279 @default.
W2014512561 hasConcept C185592680 @default.
W2014512561 hasConcept C2776683971 @default.
W2014512561 hasConcept C2777911890 @default.
W2014512561 hasConcept C2780193516 @default.
W2014512561 hasConcept C2780768313 @default.
W2014512561 hasConcept C2780902042 @default.
W2014512561 hasConcept C2781109383 @default.
W2014512561 hasConcept C41183919 @default.
W2014512561 hasConcept C526171541 @default.
W2014512561 hasConcept C55493867 @default.
W2014512561 hasConcept C71240020 @default.
W2014512561 hasConcept C71315377 @default.
W2014512561 hasConceptScore W2014512561C142716871 @default.
W2014512561 hasConceptScore W2014512561C181199279 @default.
W2014512561 hasConceptScore W2014512561C185592680 @default.
W2014512561 hasConceptScore W2014512561C2776683971 @default.
W2014512561 hasConceptScore W2014512561C2777911890 @default.
W2014512561 hasConceptScore W2014512561C2780193516 @default.