Expression analysis of RING zinc finger genes from Triticum aestivum and identification of TaRZF70 that contains four RING-H2 domains and differentially responds to water deficit between leaf and root

RING zinc finger proteins are known for their role predominantly in targeted protein degradation and participate in gene regulation through interaction with other regulatory proteins. In this study seven RING zinc finger genes from Triticum aestivum (bread wheat) were analysed for expression profiles in various organs (leaf, root, stem, spike, endosperm and embryo) and during leaf development and aging as well as in their responses to water deficit. Expression levels of six of these seven genes varied markedly among the six organs examined. All seven genes changed their expression levels in the leaf from the growing to senescing stage. Four genes were responsive to water deficit. A RING-H2 zinc finger gene, TaRZF70 showed differential response to water deprivation, namely up-regulation in the leaf and down-regulation in the root. This differential response was also observed in abscisic acid (ABA)-treated plants. Sequence analysis revealed that TaRZF70 contained four RING-H2 domains, the largest number of RING-H2 domains in any RING-H2 zinc finger proteins reported to date. These results indicate that these RING zinc finger genes are involved in diverse physiological processes in wheat, including response to drought.