Mechanism of Binding of Substrate Analogues to Tryptophan Indole-lyase: Studies Using Rapid-scanning and Single-wavelength Stopped-flow Spectrophotometry

We have examined the binding of oxindolyl-L-alanine, (3R)-2,3-dihydro-L-tryptophan, L-homophenylalanine, and N1-methyl-L-tryptophan to tryptophan indole-lyase (tryptophanase) from Escherichia coli by using rapid-scanning and single-wavelength stopped-flow kinetic techniques. Rate constants for the reactions were determined by fitting the concentration dependencies of relaxations to either linear (pseudo-first-order) or hyperbolic (rapid second-order followed by slow first-order) equations. The reaction with oxindolyl-L-alanine forms a quinonoid intermediate that exhibits a strong peak at 506 nm. This species is formed more rapidly than with the other analogues (84.5 s-1) and is reprotonated very slowly (0.2 s-1). Reaction with L-homophenylalanine also forms a quinonoid intermediate with a strong peak at 508 nm, but the rate constant for its formation is slower (6.9 s-1). The reaction with L-homophenylalanine exhibits a transient intermediate absorbing at about 340 nm that decays at the same rate as the quinonoid peak forms and that may be a gem-diamine. Tryptophan indole-lyase reacts with (3R)-2,3-dihydro-L-tryptophan much more slowly to form a moderately intense quinonoid peak at 510 nm, and a transient intermediate absorbing at about 350 nm is also formed. The species formed in the reaction of N1-methyl-L-tryptophan exhibits a peak at 425 nm and a very weak quinonoid absorption peak at 506 nm, which is formed at less than 4 s-1.(ABSTRACT TRUNCATED AT 250 WORDS)