Delineation of bacterial luciferase aldehyde site by bifunctional labeling reagents.

Previously we have established that a highly reactive cysteinyl group on the alpha subunit is at the aldehyde site of the (alpha beta) dimeric Vibrio harveyi luciferase. Three isomeric bifunctional reagents have been synthesized and used to further delineate the luciferase aldehyde site. These probes differ in their relative positions of and distances between the two functional groups active in chemical and photochemical labelings, respectively. Each of the probes can effectively and reversibly inactivate luciferase by forming a disulfide linkage primarily to the reactive cysteinyl residue. Upon subsequent photolysis, a diazoacetate arm in each probe was activated for photochemical labeling of amino acid residues within reach. After reductive regeneration of the reactive cysteinyl residue, 0.35-0.40 probe per dimeric luciferase was found to have been photochemically incorporated, correlating well with the degree of irreversible enzyme inactivation. Low but significant amounts of the three isomeric probes initially attached to the alpha reactive cysteine through a disulfide have been found to photochemically tag certain residues on beta. The latter residues are estimated to be no more than 8-11 A away from the alpha reactive cysteine. Thus the reactive cysteinyl residue, and hence the aldehyde site, must be at or near the alpha beta subunit interface. Furthermore, the structural integrity of the microenvironment surrounding this reactive cysteinyl residue is crucial to luciferase activity. An HPLC method for the isolation of luciferase alpha and beta subunits has also been developed.