Abstract
Cold stress poses a significant threat to viticulture, particularly under the increasing pressures of climate change. In this study, we identified VaMIEL1, a RING-type E3 ubiquitin ligase from Vitis amurensis, as a negative regulator of cold tolerance. Under normal temperature conditions, VaMIEL1 facilitates the ubiquitination and subsequent proteasomal degradation of the cold-responsive transcription factor VaMYB4a, thereby attenuating its regulatory role in the CBF-COR signaling cascade. However, under cold stress, VaMIEL1 expression is downregulated, leading to the stabilization of VaMYB4a and the activation of CBF-COR signaling. Through a combination of biochemical assays and functional analysis in Arabidopsis thaliana and grapevine calli, we demonstrate that VaMIEL1 overexpression reduces cold tolerance, as evidenced by increased oxidative stress, excessive reactive oxygen species (ROS) accumulation, and downregulated expression of cold-responsive genes. Conversely, silencing of VaMIEL1 enhances cold tolerance by stabilizing VaMYB4a and boosting antioxidant defenses. These findings uncover a previously unrecognized regulatory mechanism by which VaMIEL1 modulates cold tolerance through transcriptional and oxidative stress pathways, offering potential targets for the development of climate-resilient grapevine cultivars and other crops.