FBNs are lipid-associated proteins that play a critical role in plant growth and stress response. However, the mechanisms of how FBNs proteins participate in the low night temperature response in tomato still unclear. Here we conducted a comprehensive genome-wide analysis of the FBN gene family in Solanum lycopersicum. In total, 14 SlFBN genes were identified, and information on their gene structures, protein motifs, phylogenetic relationships, and stress-related cis-regulatory elements (CREs) was provided. Among these, SlFBN11 was selected as a promising candidate for further functional characterization. The silencing of SlFBN11 destroys the redox balance of the PSI reaction center under low night temperature (LNT) stress, which led to increased ROS accumulation. Surprisingly, we found that the silencing of SlFNR2 also displayed an imbalance in electron transport of the PSI under LNT stress. Further experiments showed SlFBN11 can interact with SlFNR2 to positively response electron transport low night temperature. Collectively, the study provides a comprehensive analysis of the FBN genes family in Solanum lycopersicum and provides a theoretical basis for our understanding of the function of FBN genes in adaptation to LNT stresses.
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