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Merck
  • Order of substrate binding in bacterial phenylalanine hydroxylase and its mechanistic implication for pterin-dependent oxygenases.

Order of substrate binding in bacterial phenylalanine hydroxylase and its mechanistic implication for pterin-dependent oxygenases.

Journal of biological inorganic chemistry : JBIC : a publication of the Society of Biological Inorganic Chemistry (2002-12-03)
Alon Volner, Jérôme Zoidakis, Mahdi M Abu-Omar
摘要

Phenylalanine hydroxylase (PAH) is a pterin-dependent non-heme metalloenzyme that catalyzes the oxidation of phenylalanine to tyrosine, which is the rate-limiting step in the catabolism of Phe. Chromobacterium violaceum phenylalanine hydroxylase (cPAH) has been prepared and its steady-state mechanism has been investigated. The enzyme requires iron for maximal activity. Initial rate measurements, done in the presence of the 6,7-dimethyl-5,6,7,8-tetrahydropterin (DMPH(4)) cofactor, yielded an average apparent k(cat) of 36+/-1 s(-1). The apparent K(M) values measured for the substrates DMPH(4), L-Phe, and O(2) are 44+/-7, 59+/-10, and 76+/-7 microM, respectively. Steady-state kinetic analyses using double-reciprocal plots revealed line patterns consistent with a sequential ter-bi mechanism in which L-Phe is the middle substrate in the order of binding. The occurrence of a line intersection on the double-reciprocal plot abscissa when either pterin or O(2) is saturated suggests that, prior to O(2) binding, DMPH(4) and L-Phe are in associative pre-equilibrium with cPAH. Together with an inhibition study using the oxidized cofactor, 7,8-dimethyl-6,7-dihydropterin, it is conclusive that the mechanism is fully ordered, with DMPH(4) binding the active site first, L-Phe second, and O(2) last. This represents the first conclusive steady-state mechanism for a PAH enzyme.

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Sigma-Aldrich
6,7-二甲基-5,6,7,8-四氢蝶呤 盐酸盐, ≥95%