The carotenoid cleavage dioxygenase 4 (CmCCD4a) gene family encodes a key regulator of petal color mutation in chrysanthemum

It has long been proposed that white-flowered chrysanthemums (Chrysanthemum morifolium Ramat.) have a single dominant gene that inhibits carotenoid formation or accumulation in ray petals. However, the precise function of the proposed gene was unknown. We previously isolated a gene encoding carotenoid cleavage dioxygenase 4, designated CmCCD4a, which is specifically expressed in the ray petals of white-flowered chrysanthemums. Because CmCCD4a was a strong candidate for the single dominant gene, we analyzed the relationship between CmCCD4a expression and carotenoid content in two sets of petal color mutants. Here, we show that CmCCD4a represents a small gene family containing at least four members. Two of them, CmCCD4a-1 and CmCCD4a-2, were highly expressed in ray petals of two taxa with low carotenoid levels. In petal color mutants derived from these taxa, increases in carotenoid levels accompanied decreases in CmCCD4a expression levels in ray petals. Two different circumstances reduced the levels of CmCCD4a expression in the mutants: either a CmCCD4a gene was lost from the genome or the expression of a CmCCD4a gene was suppressed. In the latter case, suppression may be caused by the loss of a function that normally enhances CmCCD4a transcription. A stepwise decrease in the amount of CmCCD4a expression in either L1 or L2 resulted in a corresponding stepwise increase in the carotenoid content in ray petals. From these results, we propose that CmCCD4a expression is the key factor that controls the carotenoid content in ray petals of chrysanthemum.