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Title: A mutagenesis study of the putative luciferin binding site residues of firefly luciferase. Author: Branchini BR, Southworth TL, Murtiashaw MH, Boije H, Fleet SE. Journal: Biochemistry; 2003 Sep 09; 42(35):10429-36. PubMed ID: 12950169. Abstract: Firefly luciferase catalyzes the highly efficient emission of yellow-green light from substrate firefly luciferin by a sequence of reactions that require Mg-ATP and molecular oxygen. We had previously developed [Branchini, B. R., Magyar, R. A., Murtiashaw, M. H., Anderson, S. M., and Zimmer, M. (1998) Biochemistry 37, 15311-15319] a molecular graphics-based working model of the luciferase active site starting with the first X-ray structure [Conti, E., Franks, N. P., and Brick, P. (1996) Structure 4, 287-298] of the enzyme without bound substrates. In our model, the luciferin binding site contains 15 residues that are within 5 A of the substrate. Using site-directed mutagenesis, we made changes at all of these residues and report here the characterization of the corresponding expressed and purified proteins. Of the 15 residues studied, 12 had a significantly (>or=4-fold K(m) difference) altered binding affinity for luciferin and seven residues, spanning the primary sequence region Arg218-Ala348, had substantially (>or=30 nm) red-shifted bioluminescence emission maxima when mutated. We report here an interpretation of the roles of the mutated residues in substrate binding and bioluminescence color determination. The results of this study generally substantiate the accuracy of our model and provide the foundation for future experiments designed to alter the substrate specificity of firefly luciferase.[Abstract] [Full Text] [Related] [New Search]