1992
DOI: 10.1021/bi00148a037
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Dioxygen transfer during vitamin K dependent carboxylase catalysis

Abstract: The vitamin K dependent carboxylase of liver microsomes is involved in the posttranslational modification of certain serine protease zymogens which are critical components of the blood clotting cascade. During coupled carboxylation/oxygenation this carboxylase converts glutamate residues, dihydrovitamin K, CO2, and O2 to a gamma-carboxyglutamyl (Gla) residue, vitamin K (2R,3S)-epoxide, and H2O with a stoichiometry of 1:1 for all substrates and products. In this paper we investigate the role of molecular oxygen… Show more

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Cited by 32 publications
(23 citation statements)
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“…172,173 18 O 2 incorporation studies showed one 18 O in the epoxide oxygen and 5–20% in one of the quinone oxygens. 174,175 The epoxidation mechanism proposed by Dowd et al 174 (Figure 49) is realistic when one considers the kinetics of carbonyl oxygen exchange with H 2 O. 176178…”
Section: C-c Bond Forming Reactionsmentioning
confidence: 98%
“…172,173 18 O 2 incorporation studies showed one 18 O in the epoxide oxygen and 5–20% in one of the quinone oxygens. 174,175 The epoxidation mechanism proposed by Dowd et al 174 (Figure 49) is realistic when one considers the kinetics of carbonyl oxygen exchange with H 2 O. 176178…”
Section: C-c Bond Forming Reactionsmentioning
confidence: 98%
“…127,140 In these unusual enzymes, the initial 1 e - reduction of O 2 (required to convert O 2 to its reactive singlet state) is believed to be carried out by the substrate which, for all known dioxygenases in this class, is a phenolic compound that can likely access a stable radical state. 140 Biochemically well characterized examples of epoxidases from this class of enzymes include the vitamin K-dependent glutamate carboxylase, an enzyme that couples the post-translational carboxylation of glutamate residues in certain proteins to the epoxidation of vitamin K, 192195 and the dihydroxyacetanilide epoxidases, DHAE I and DHAE II, which respectively catalyze the key steps in the biosynthesis of the epoxyquinone compounds LL-C10037α ( 143 ) and MM14201 ( 144 ) (Scheme 22). The former is an antitumor agent produced by Streptomyces LL-C10037, and the latter is an anticancer compound isolated from Streptomyces MPP 3051.…”
Section: Epoxide Biosynthesismentioning
confidence: 99%
“…Following this analysis, we have carried out 1802 labeling experiments with the carboxylase in a rat liver microsomal preparation and find, in the |mie 466 0 + |mle 306| course of 12 trials, 17 + 1.4% (standard deviation) incorporation of a second atom of 180 into the product vitamin K oxide (26,31,33,34).…”
Section: -mentioning
confidence: 99%