The C2H2-type zinc finger protein PhZFP1 regulates cold stress tolerance by modulating galactinol synthesis in Petunia hybrida

The C2H2 zinc finger proteins (ZFPs) play essential roles in regulating cold stress responses. Similarly, raffinose accumulation contributes to freezing stress tolerance. However, the relationship between C2H2 functions and raffinose synthesis in cold tolerance remains uncertain. Here, we report the characterization of the cold-induced C2H2-type zinc finger protein PhZFP1 in Petunia hybrida. PhZFP1 was found to be predominantly localized in the nucleus. Overexpression of PhZFP1 conferred enhanced cold tolerance in transgenic petunia lines. In contrast, RNAi mediated suppression of PhZFP1 led to increased cold susceptibility. PhZFP1 regulated the expression of a range of abiotic stress responsive-genes including genes encoding proteins involved in reactive oxygen species (ROS) scavenging and raffinose metabolism. The accumulation of galactinol and raffinose, and the levels of PhGolS1-1 transcripts, were significantly increased in PhZFP1-overexpressing plants and decreased in PhZFP1-RNAi plants under cold stress. Moreover, the galactinol synthase (GolS)-encoding gene PhGolS1-1 was identified as a direct target of PhZFP1. Taken together, these results demonstrate that PhZFP1 functions in cold stress tolerance by modulation of galactinol synthesis via regulation of PhGolS1-1. This study also provides new insights into the mechanisms underlying C2H2 zinc finger protein-mediated cold stress tolerance, and has identified a candidate gene for improving cold stress tolerance.