Hao Yuan Chen scite author profile

Tyr71 is an invariant residue in all known sequences of tyrosine phenol-lyase (TPL). The substitution of Tyr71 in TPL by phenylalanine results in a mutant Y71F TPL with no detectable activity (greater than 3 x 10(5)-fold reduction) for beta-elimination of L-tyrosine. Y71F TPL can react with S-alkylcysteines, but these substrates exhibit kcat values reduced by 10(3)-10(4)-fold, while the kcat/Km values are reduced by 10(2)-10(3)-fold, compared to wild-type TPL. However, for substrates with good leaving groups (S-(o-nitrophenyl)-L-cysteine,beta-chloro-L-alanine, and O-benzoyl-L-serine), Y71F TPL exhibits kcat values 1.85-7% those of wild-type TPL. Y71F TPL forms very stable quinonoid complexes with strong absorbance at 502 nm from L-phenylalanine, tyrosines (L-tyrosine, 3-fluoro-L-tyrosine, and [alpha-2H]-3-fluoro-L-tyrosine), and S-alkylcysteines (S-methyl-L-cysteine, S-ethyl-L-cysteine, and S-benzyl-L-cysteine). The time courses of the formation of quinonoid intermediates in these reactions are biphasic. The slow phase shows a dependence on concentration of PLP and is due to the cofactor binding steps, while the fast phase is due to the amino acid alpha-deprotonation and reprotonation steps. The rate constants for the fast phase of the reactions of Y71F TPL with L-phenylalanine and S-methylcysteine are similar to those for alpha-deprotonation or reprotonation steps in the reactions of wild-type TPL. The PLP binding constant of Y71F TPL is estimated to be 1 mM by spectrophotometric titration, compared to 0.6 microM for wild-type TPL.(ABSTRACT TRUNCATED AT 250 WORDS)

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Aminoacrylate Intermediates in the Reaction of Citrobacter freundii Tyrosine Phenol-Lyase

Phillips

Chen

Faleev

2006

Biochemistry

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Tyrosine phenol-lyase (TPL) from Citrobacter freundii is a pyridoxal 5′-phosphate (PLP)dependent enzyme that catalyzes the reversible hydrolytic cleavage of L-Tyr to give phenol and ammonium pyruvate. The proposed reaction mechanism for TPL involves formation of an external aldimine of the substrate, followed by deprotonation of the R-carbon to give a quinonoid intermediate. Elimination of phenol then has been proposed to give an R-aminoacrylate Schiff base, which releases iminopyruvate that ultimately undergoes hydrolysis to yield ammonium pyruvate. Previous stopped-flow kinetic experiments have provided direct spectroscopic evidence for the formation of the external aldimine and quinonoid intermediates in the reactions of substrates and inhibitors; however, the predicted R-aminoacrylate intermediate has not been previously observed. We have found that 4-hydroxypyridine, a non-nucleophilic analogue of phenol, selectively binds and stabilizes aminoacrylate intermediates in reactions of TPL with S-alkyl-L-cysteines, L-tyrosine, and 3-fluoro-L-tyrosine. In the presence of 4-hydroxypyridine, a new absorption band at 338 nm, assigned to the R-aminoacrylate, is observed with these substrates. Formation of the 338 nm peaks is concomitant with the decay of the quinonoid intermediates, with good isosbestic points at ∼365 nm. The value of the rate constant for aminoacrylate formation is similar to k cat , suggesting that leaving group elimination is at least partially rate limiting in TPL reactions. In the reaction of S-ethyl-L-cysteine in the presence of 4-hydroxypyridine, a subsequent slow reaction of the R-aminoacrylate is observed, which may be due to iminopyruvate formation. Both L-tyrosine and 3-fluoro-L-tyrosine exhibit kinetic isotope effects of ∼2-3 on R-aminoacrylate formation when the R-2 H-labeled substrates are used, consistent with the previously reported internal return of the R-proton to the phenol product. These results are the first direct spectroscopic observation of R-aminoacrylate intermediates in the reactions of TPL.

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Role of Lysine-256 in Citrobacter freundii Tyrosine Phenol-lyase in Monovalent Cation Activation

et al. 2004

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Tyrosine phenol-lyase (TPL) from Citrobacter freundii is dependent on monovalent cations, K(+) or NH(4)(+), for high activity. We have shown previously that Glu-69, which is a ligand to the bound cation, is important in monovalent cation binding and activation [Sundararaju, B., Chen, H., Shillcutt, S., and Phillips, R. S. (2000) Biochemistry 39, 8546-8555]. Lys-256 is located in the monovalent cation binding site of TPL, where it forms a hydrogen bond with a structural water bound to the cation. This lysine residue is highly conserved in sequences of TPL and the paralogue, tryptophan indole-lyase. We have now prepared K256A, K256H, K256R, and E69D/K256R mutant TPLs to probe the role of Lys-256 in monovalent cation binding and activation. K256A and K256H TPLs have low activity (k(cat)/K(m) values of 0.01-0.1%), are not activated by monovalent cations, and do not exhibit fluorescence emission at 500 nm from the PLP cofactor. In contrast, K256R TPL has higher activity (k(cat)/K(m) about 10% of wild-type TPL), is activated by K(+), and exhibits fluorescence emission from the PLP cofactor. K256A, K256H, and K256R TPLs bind PLP somewhat weaker than wild-type TPL. E69D/K256R TPL was prepared to determine if the guanidine side chain could substitute for the monovalent cation. This mutant TPL has wild-type activity with S-Et-L-Cys or S-(o-nitrophenyl)-L-Cys but has no detectable activity with L-Tyr. E69D/K256R TPL is not activated by monovalent cations and does not show PLP fluorescence. In contrast to wild-type and other mutant TPLs, PLP binding to E69D/K256R is very slow, requiring several hours of incubation to obtain 1 mol of PLP per subunit. Thus, E69D/K256R TPL appears to have altered dynamics. All of the mutant TPLs react with inhibitors, L-Ala, L-Met, and L-Phe, to form equilibrating mixtures of external aldimine and quinonoid intermediates. Thus, Lys-256 is not the base which removes the alpha-proton during catalysis. The results show that the function of Lys-256 in TPL is in monovalent cation binding and activation.

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Hao Yuan Chen

Site-Directed Mutagenesis of Tyrosine-71 to Phenylalanine in Citrobacter freundii Tyrosine Phenol-Lyase: Evidence for Dual Roles of Tyrosine-71 as a General Acid Catalyst in the Reaction Mechanism and in Cofactor Binding

Aminoacrylate Intermediates in the Reaction of Citrobacter freundii Tyrosine Phenol-Lyase

Role of Lysine-256 in Citrobacter freundii Tyrosine Phenol-lyase in Monovalent Cation Activation

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