Sensitizing plant protein kinases to specific inhibition by atp-competitive molecules

Abstract

The highly conserved nature of the protein kinase catalytic domain and the low permeability of plant cell membranes pose a challenge to the development of specific inhibitors that target individual protein kinases in vivo. Here, we describe a chemical-genetic approach to specifically sensitize individual plant kinases to cell-permeable small molecules that do not inhibit wild-type kinases. In this approach, a single amino-acid substitution is introduced in the ATP-binding site of the enzyme enabling specific binding of ATP-competitive molecules. Cell-permeable molecules can then be used to specifically target the sensitized allele in transgenic Arabidopsis thaliana plants that do not express the wild-type form of the kinase. This strategy provides a useful tool for the functional characterization of protein kinases in planta and for the dissection of the signaling pathways in which they are involved.