The circadian clock genes in tomato are key regulators of cold stress adaptation. However, the low-temperature regulatory mechanism of the circadian clock gene SlPCL1 remains unclear. In this study, researchers evaluated the role of SlPCL1 in cold tolerance through low-temperature treatment of transgenic plants.
Downstream target genes were identified using RNA-seq, RT-qPCR, yeast-one-hybrid (Y1H), dual-luciferase assays, and electrophoretic mobility shift assay (EMSA), while interacting proteins were characterized using yeast-two-hybrid (Y2H), luciferase complementation imaging (LCI), and pull-down assays, thereby elucidating the molecular mechanism underlying SlPCL1-mediated low-temperature regulation. We identified SlPCL1 as a nuclear-localized circadian clock gene with transcriptional repressor activity. Overexpression of SlPCL1 resulted in a cold-sensitive phenotype, whereas virus-induced gene silencing (VIGS)-mediated silencing of SlPCL1 enhanced cold tolerance. SlNPF4.6 functions as an abscisic acid (ABA) transporter involved in ABA transport. RNA-seq and RT-qPCR identified the ABA transporter SlNPF4.6 as a downstream target. Functional assays confirmed that SlPCL1 binds to the MYB element in the SlNPF4.6 promoter to repress its expression. Meanwhile, VIGS-mediated silencing of SlNPF4.6 decreased cold tolerance. Furthermore, the expression levels of the ABA receptor SlPYLs in the silenced lines were significantly reduced, confirming the decrease in intracellular ABA content. SlSUMO1, a ubiquitin-like protein, can influence gene transcription through noncovalent interactions. In addition, SlSUMO1 was found to interact with the SlPCL1 protein, attenuating SlPCL1 transcriptional repression activity. Together, these findings establish an SlSUMO1-mediated fine control mechanism of the SlPCL1-SlNPF4.6 regulatory module.
This integration of circadian clock regulation uncovers new molecular mechanisms of cold tolerance and supports the development of cold-resistant breeding materials.
Qin, Y.; Qiu, J.; Li, M.; Wang, M.; Tang, D.; Ni, L.; Shang, C.; Wu, L.; Pan, Y.; Li, J.; et al. The SlPCL1–SlSUMO1 Complex Defines a SlPCL1–SlNPF4.6 Module Governs Cold Tolerance in Tomato. Agronomy 2026, 16, 420. https://doi.org/10.3390/agronomy16040420
Source: MDPI
