Analysis of the Arabidopsis cell suspension phosphoproteome in response to short-term low temperature and abscisic acid treatment

To shed light on the early protein phosphorylation events involved in plant cell signaling in response to environmental stresses, we studied changes in the phosphorylation status of the Arabidopsis cell suspension proteome after short-term low temperature and abscisic acid (ABA) treatment. We used radioactive pulse-labeling of Arabidopsis cell suspension cultures and two-dimensional (2-D) gel electrophoresis to identify proteins that are differentially phosphorylated in response to these treatments. Changes in the phosphorylation levels of several proteins were detected in response to short-term (5 min or less) cold (4 degrees C) and chilling (12 degrees C) stress and ABA treatment, and we observed that some of these changes were common between these treatments. In addition, we used Pro-Q Diamond phosphoprotein gel stain to study the steady-state protein phosphorylation status under the same treatments. We demonstrated that Pro-Q Diamond effectively stained phosphorylated proteins, however, the overall Pro-Q Diamond 2-D gel staining pattern of proteins extracted from low-temperature and ABA-treated cells was not consistent with the gel patterns obtained by in vivo radioactive labeling of phosphoproteins. These in vivo pulsed-labeling experiments demonstrate that the Arabidopsis phosphoproteome is dynamic in response to short-term low temperature and ABA treatment, and thus represents a strategy for the identification of signaling proteins that could be utilized in the production of chilling or freeze tolerant crop varieties.