Kinetic Characterization of Rice Plant Specific Kinesin E11 using Fluorescent ATP Analogue

Abstract

Kinesin is an ATP-driven motor protein that plays important physiological roles in intracellular transport, mitosis and meiosis, control of microtubule dynamics, and signal transduction. Kinesin species derived from vertebrates have been well characterized. In contrast, plant specific kinesin have yet to be adequately characterized. We have previously demonstrated that some kinesins derived from rice plant have unique biochemical characteristic properties and structures.In this study, we characterized rice plant specific kinesin E11 that belongs to the plant specific At1 subfamily in kinesin-7 family. E11 motor domain was expressed by E. coli expression system and purified with Co-chelate column in order to characterize biochemical and ATPase kinetic properties. The fluorescent ATP analogues, Mant-ATP was employed for the kinetic characterization. We have successfully observed significant FRET between Mant-ATP and intrinsic tryptophan (Trp23) residue in E11. The kinetic parameters of initial binding of Mant-ATP to E11 and release of Mant-ADP from E11 were analyzed by monitoring the FRET using stopped flow apparatus and compared with other rice kinesins and conventional kinesin. The results revealed that the initial binding of ATP to E11 and release of ADP are slower than those of other rice plant specific kinesin.