The lineage-specific evolution of the oleosin family in Theaceae.

Oleosins play essential roles in stabilization of lipid droplets (LDs) and seed oil production. However, evolution of this gene family has not been reported in Theaceae, a large plant family that contains many important tea and oil tea species. In this study, a total of 65 oleosin genes were identified in nine genome-sequenced Theaceae species. Among these genomes, the gene number of oleosin showed significant difference, with Camellia sinensis var. sinensis cv. Shuchazao and Camellia lanceoleosa displayed more oleosin numbers than other species. Phylogenetic analyses revealed that Theaceae oleosin genes were classified into three clades (U, SL, SH) respectively. Proteins within the same clade had similar gene structure and motif composition. Segmental duplication was the primary driving force for the evolution of oleosin genes in Shuchazao (SCZ), Huangdan (HD), C.lanceoleosa (Cla), and wild tea (DASZ). Synteny analysis showed that most oleosin genes displayed inter-species synteny among tea and oil tea species. Expression analysis demonstrated that oleosin genes were specifically expressed in seed and kernel of Huangdan (HD) and C.lanceoleosa. Moreover, expression divergence was observed in paralogous pairs and ∼1-2 oleosin genes in each clade have become activate. This study leads to a comprehensive understanding of evolution of oleosin family in Theaceae, and provides a rich resource to further address the functions of oleosin in tea and oil tea species.