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Publication Abstract from PubMed

Tryptophan indole-lyase (TIL; [E.C. 4.1.99.1]) is a pyridoxal-5'-phosphate (PLP) dependent enzyme that catalyzes the reversible beta-elimination of indole from l-tryptophan. l-Alanine and l-ethionine are TIL competitive inhibitors that form stable quinonoid complexes with lambda(max) approximately 508 nm. We have now determined the X-ray crystal structure of the tetrameric TIL complexes with l-alanine and l-ethionine, with either K(+) or Na(+) in the cation binding site. For the K(+)-form, the structures show a mixture of external aldimine and quinonoid complexes, with both open and closed active site conformations. However, the Na(+)-form exhibits noncovalent and external aldimine complexes in only open active site conformations. Stopped-flow kinetics of l-ethionine binding show that the Na(+)-form of TIL reacts much more slowly than the K(+)-form. The l-alanine and l-ethionine complexes of TIL are affected by hydrostatic pressure, suggesting that solvation contributes to the reaction. As pressure increases, the peak at 508 nm decreases, and a new peak at 344 nm appears. These changes are reversible when pressure is released. The 344 nm species could be either a gem-diamine or an enolimine tautomer of the external aldimine. We measured the fluorescence spectrum of the complex under pressure to differentiate these structures. When excited at either 290 or 325 nm, the complex emits at 400 nm, establishing that it is a gem-diamine complex. This peak does not form when the Na(+)-form of TIL complexed with l-ethionine is subjected to high pressure. Pressure jumps for the TIL-K(+)-l-ethionine complex measured at 508 nm result in pressure dependent relaxation rate constants. The relaxations show a large activation volume in the direction of quinonoid intermediate formation, suggesting that it is coupled with a conformational change. These results provide new insights into the dynamics of ligand binding to TIL.

Structure and dynamics of Proteus vulgaris tryptophan indole-lyase complexes with l-ethionine and l-alanine.,Phillips RS, Brown SM Arch Biochem Biophys. 2025 Jun;768:110402. doi: 10.1016/j.abb.2025.110402. Epub , 2025 Mar 25. PMID:40147499^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.