Characterization of a wheat C2 domain protein encoding gene regulated by stripe rust and abiotic stresses

Abstract

Plant C2 domain proteins play important roles in diverse cellular processes including growth, development, and membrane targeting, as well as in abiotic and biotic stress adaptations by sensing intracellular Ca2+ signals. In this study, we isolated a novel C2 domain protein gene, TaERG3, from wheat infected by Puccinia striiformis f. sp. tritici. TaERG3 was predicted to encode a 144 amino acid protein with molecular mass of 15.68 kD and isoelectric point of 3.93. Analysis of the deduced amino acid sequence of TaERG3 using InterProScan revealed the presence of an N-terminal calciumdependent phospholipid-binding module (C2 domain, 5 to 103). Transient expression analysis showed that the TaERG3 protein was predominately and uniformly localized in the plasmalemma and nucleus of onion epidermal cells. Quantitative real-time PCR analyses indicated that TaERG3 transcript was differentially induced in both incompatible and compatible interactions, as well as by applied abscisic acid (ABA) and CaCl2. However, the significant transcript changes induced by methyl jasmonate, ethylene, and salicylic acid treatments were not as dramatic as those induced by ABA. TaERG3 was also up-regulated by environmental stimuli including low temperature and high salinity. These results imply that TaERG3 might be involved in wheat defence responses against stripe rust and abiotic stresses in an ABA-dependent signalling pathway.