DOI：10.1093/plcell/koaf007

Abstract

A complex regulatory network governs fruit ripening, but natural variations and functional differentiation of fruit ripening genes remain largely unknown. Utilizing a genome-wide association study (GWAS), we identified the NAC family transcription factor MdNAC18.1, whose expression is closely associated with fruit ripening in apple (Malus x domestica Borkh.). MdNAC18.1 activated the transcription of genes related to fruit softening (Polygalacturonase, PG) and ethylene biosynthesis (1-aminocyclopropane-1-carboxylic acid synthase, ACS), thereby promoting fruit ripening of apple and tomato (Solanum lycopersicum). There were two single-nucleotide polymorphisms (SNP-1,545 and SNP-2,002) and a 58-bp insertion-deletion (InDel-58) in the promoter region of MdNAC18.1. Among these, InDel-58 serves as the main effector in activating the expression of MdNAC18.1 and driving fruit ripening. InDel-58 determines the binding affinity of the class D MADS-box protein AGAMOUS-LIKE 11 (MdAGL11), a negative regulator of fruit ripening. The InDel-58 deletion in the early-ripening genotype reduces the inhibitory effect of MdAGL11 on MdNAC18.1. Moreover, MdNAC18.1 and its homologous genes originated from a common ancestor across 61 angiosperms, with functional diversification attributed to tandem replications that occurred in basal angiosperms. In summary, our study revealed how a set of natural variations influence fruit ripening and explored the functional diversification of MdNAC18.1 during evolution.Three variants within the promoter of a NAC transcription factor are associated with fruit ripening in apple, with a 58-base pair insertion/deletion playing a major role.