Room temperature phosphorescence of Trp-314 as a monitor of subunit communications in alcohol dehydrogenase from horse liver.

The phosphorescence properties of liver alcohol dehydrogenase from horse were characterized at limiting concentrations of coenzyme and coenzyme analogues. The emission decay kinetics of Trp-314 in strong, slowly exchanging, ternary complexes with NADH/isobutyramide, NAD/pyrazole, and NADH/dimethyl sulfoxide displays a markedly nonexponential character. The analysis of decay components over the saturation curve reveals that the phosphorescence from singly bound protein molecules has a lifetime from 1 to 1.3 s, which is 2-3 times larger than observed with fully bound and unliganded enzyme. The remarkably tighter configuration reported by the triplet probe for the coenzyme-binding domain in half-saturated macromolecules is not exclusive of strongly inhibited ternary complexes. Measurements on binary complexes with NADH, ADPR, and the inactive coenzyme analogue 1,4,5,6-tetrahydronicotinamide adenine dinucleotide confirm that binding of the ligand to one subunit has qualitatively the same influence on protein structure. If the lifetime of Trp-314 provides clear evidence for an appreciable change in conformation at half-binding that is apparently triggered by the ADPR fragment of the coenzyme, such communication between subunits does not lead to allosteric phenomena in coenzyme binding.