Integrative analyses of transcriptome and carotenoids profiling revealed molecular insight into variations in fruits color of Citrus Reticulata Blanco induced by transplantation.

Citrus fruits exhibit vivid color and are favored extensively. However, the biochemical and molecular mechanism of Citrus Reticulata Blanco fruits coloring, especially the effect of transplantation on fruits coloring, is unclear. Herein, RNA-Seq and carotenoids profiling were applied to investigate the effect of transplantation on Orah mandarin fruits coloring. Transplantation induces fruit color shallowing, Ca2+ and ACC level declining and IAA level increasing. Transplantation induced variation in fruit skin and pulp carotenoids, mainly β-citraurin as one of the important pigments of citrus peel. 2253 up-regulated genes, 1103 down-regulated genes in skin and 815 up-regulated genes, 534 down-regulated genes in pulp of transplanted tree fruits were identified by RNA-Seq. The DEGs involved hormone signal, carotenoids biosynthesis and TFs such as MYB and bHLH family TFs. The carotenoid cleavage dioxygenase gene (Ciclev10028113m.g) is positively correlated with β-citraurin and regulated directly and/or indirectly by MYB1R1, PIF4, ACC and IAA. Integrative analyses revealed potential molecular insights into Orah mandarin peel color variation during transplantation. • Transplantation resulted in fruit color shallowing and decreased fruit Ca2+ level. • Transplantation induced variation in vast carotenoids in Orah mandarin fruit skin and pulp, especially for β-citraurin as one of the important pigments of citrus peel. • Transplantation induced variation in a large number of DEGs, involving metabolic processes of hormone signal, carotenoid biosynthesis and transcription factors as MYB and bHLH family TFs. • Integrative analyses revealed potential molecular insights into fruit skin color variation during Orah mandarin transplant. [ABSTRACT FROM AUTHOR]