20164179 |
Omi R, Kurokawa S, Mihara H, Hayashi H, Goto M, Miyahara I, Kurihara T, Hirotsu K, Esaki N: Reaction mechanism and molecular basis for selenium/sulfur discrimination of selenocysteine lyase. J Biol Chem. 2010 Feb 17. Selenocysteine lyase (SCL) catalyzes the pyridoxal 5 (')-phosphate-dependent removal of selenium from L-selenocysteine to yield L-alanine. The enzyme is proposed to function in the recycling of the micronutrient selenium from degraded selenoproteins containing selenocysteine residue as an essential component. The enzyme exhibits strict substrate specificity toward L-selenocysteine and no activity to its cognate L-cysteine. However, it remains unclear how the enzyme distinguishes between selenocysteine and cysteine. Here, we present mechanistic studies of selenocysteine lyase from rat. ESI-MS analysis of wild-type and C375A mutant SCL revealed that the catalytic reaction proceeds via the formation of an enzyme-bound selenopersulfide intermediate on the catalytically essential Cys375 residue. UV-Vis spectrum analysis and the crystal structure of SCL complexed with L-cysteine demonstrated that the enzyme reversibly forms a nonproductive adduct with L-cysteine. Cys375 on the flexible loop directed L-selenocysteine, but not L-cysteine, to the correct position and orientation in the active site to initiate the catalytic reaction. These findings provide, for the first time, the basis for understanding how trace amounts of a selenium-containing substrate is distinguished from excessive amounts of its cognate sulfur-containing compound in a biological system. |
33(0,1,1,3) |