Coordinated Regulation of Biosynthetic and Regulatory Genes Coincides with Anthocyanin Accumulation in Developing Eggplant Fruit

摘要

Violet to black pigmentation of eggplant (Solanum melongena L.) fruit is caused by anthocyanin accumulation. Model systems demonstrate the role of regulatory genes in the control of anthocyanin biosynthesis. Anthocyanin structural gene transcription requires the expression of at least one member of each of three transcription factor families: MYB, MYC, and WD. To determine the molecular genetic basis for anthocyanin pigmentation in eggplant fruit, we used real-time polymerase chain reaction (PCR) to evaluate the expression of anthocyanin biosynthetic (Chs, Dfr, Ans) and regulatory (Myc, Myb(B), Myb(C), Wd) genes in S. melongena genotypes that produce fruit with dark violet ('Classic') or white ('Ghostbuster') coloration, respectively. Transcript levels and anthocyanin content were evaluated in fruit at various stages of development ranging from small post-anthesis fruit to full-sized marketable fruit. Anthocyanin content increased 9-fold in developing violet-colored 'Classic' fruit, whereas low but detectable concentrations were found in white 'Ghostbuster' fruit. Chs, Dfr, and Ans as well as Myb(C) and Myc transcript levels were significantly higher in 'Classic' in comparison with 'Ghostbuster' fruit at comparable stages of fruit development with greatest differences observed for Ans transcript levels. Myb(C) and Myc transcript levels increased in developing 'Classic' fruit coincident with increasing anthocyanin content. Myb(B) and Wd transcript levels were not coordinated with changes in biosynthetic transcript levels or anthocyanin concentration.