Carotenoids and xanthophyll esters of yellow and red nance fruits (Byrsonima crassifolia (L.) Kunth) from Costa Rica.

Carotenoid profiles, by means of HPLC-PDA-MSn, and CIE-L*C*h° colour values of yellow and red nance fruits from Costa Rica were elucidated. Among 16 carotenoids detected, (all-E)-lutein was the most abundant accounting for >80% of the total carotenoids, followed by (all-E)-zeaxanthin (9-11%) and (all-E)-ß-carotene (2-9%). Minor constituents were (Z)-isomers of lutein and ß-carotene, as well as diverse lutein diesters. Among the esters, lutein dimyristate was the most abundant as substantiated by the comparison with a marigold flower extract. Total carotenoids in the peel (616.2 µg/100 g of FW in yellow nance and 174.2 µg/100 g of FW in red nance) were higher than in the pulp (39.4 µg/100 g of FW in yellow nance and 31.4 µg/100 g of FW in red nance). Since carotenoid profiles of yellow and red varieties were qualitatively similar, although the colour values showed significant differences (77.2 and 88.6 h° in peel and pulp of yellow nance, versus 32.7 and 67.3 h° in peel and pulp of red nance, respectively), pigments other than carotenoids may impart the colour of red nance. High lutein content renders nance fruit as a nutritionally relevant source of this micronutrient.

Potential of carotenoids in aquatic yeasts as a phylogenetically reliable marker and natural colorant for aquaculture.

Apart from Xanthophyllomyces dendrorhous, pink colony-forming yeasts have not been examined as a pigmentation source in captive animals. In this study, aquatic yeasts were screened with a view to abundances of carotenoids. Phylogenetic analyses of these caroetnoid-rich yeasts based on large subunit ribosomal RNA gene (LSU rDNA) partial sequences showed that all belonged to the order Sporidiobolales. Both the qualitative and the quantitative differences in carotenoids between the yeasts appeared to be consistent with their phylogenetic affiliations. This information might be useful in the selection of pigment-rich yeasts containing specific carotenoids from a large number of strains. We also found, for the first time, the potential of a pigment-rich Rhodotorula strain as a colorant for aquaculture. The integuments of tilapia and carp fed the alkali-treated cells of strain Rhodotorula dairenensis Sag 17 were pigmented after 3 months of cultivation. The fish integuments retained the yeast carotenes shortly after the start of feeding, and were converted to the fish-specific xanthophylls in vivo.