Banana MaSPL16 Modulates Carotenoid Biosynthesis during Fruit Ripening Through Activating the Transcription of Lycopene β-Cyclase Genes.

Abstract

Carotenoids are a kind of bioactive compounds that exhibit health-promoting properties for humans, but their regulation in bananas during fruit ripening remains largely unclear. Here we found that total carotenoid content continued to be elevated along the course of banana ripening and peaked at the ripening stage followed by a decrease, which is presumably caused by the transcript abundances of carotenoid biosynthetic genes MaLCYB1.1 and MaLCYB1.2. Moreover, a ripening-inducible transcription factor MaSPL16 was characterized, which was shown to be a nuclear protein with transactivation activity. Transient transformation of MaSPL16 in banana fruit led to enhanced transcript levels of MaLCYB1.1 and MaLCYB1.2, and hence the total carotenoid accumulation. Importantly, MaSPL16 stimulated the transcription of MaLCYB1.1 and MaLCYB1.2 through directly binding to their promoters. Collectively, our findings indicate that MaSPL16 behaves as an activator to modulate banana carotenoid biosynthesis, which may provide a new target for molecular improvement of the nutritional and bioactive qualities of agricultural crops that accumulate carotenoids.