Biochemical, Biophysical, and Functional Analyses of Two Isoforms of the SnRK2 Inhibitor AtSCS

SNF1-related protein kinases 2 (SnRK2s) are key signaling elements that regulate abscisic acid (ABA)-dependent plant development and responses to environmental stresses. Our previous data showed that the SnRK2-interacting Calcium Sensor (SCS) is an inhibitor of SnRK2 activity. In Arabidopsis thaliana, the use of alternative transcription start sites located within AtSCS gene results in two in-frame transcripts and subsequently two proteins, which differ only by the sequence position of the N-terminus. We described the longer AtSCS-A earlier, and now we describe the shorter AtSCS-B and compare both isoforms. The two forms differ significantly in their expression profiles in plant organs and in response to environmental stresses, in calcium binding properties, and conformational dynamics in the presence and absence of Ca2+. The results show that only AtSCS-A has the features of a calcium sensor. Both forms inhibit SnRK2 activity, but differ with respect to calcium dependence, as AtSCS-A requires calcium for inhibition, while AtSCS-B does not. Analysis of Arabidopsis plants stably expressing 35S::AtSCS-A-c-myc or 35S::AtSCS-B-c-myc in the scs-1 knockout mutant revealed that in planta both forms are negative regulators of the SnRK2 activity induced in response to ABA and regulate plant defense against water deficit. Moreover, the data present biochemical, biophysical, and functional properties of EF-hand-like motifs in plant proteins.