Generating high purity and yield of capsanthin and capsorubin carrot germplasm through synthetic metabolic engineering.
Yuan-Jie DengAo-Qi DuanHui LiuZhi-Sheng XuAi-Sheng XiongPublished in: Journal of experimental botany (2024)
Capsanthin and capsorubin are red κ-xanthophylls exclusively found in a handful of other plant species. Currently, capsanthin and capsorubin are only extracted from red pepper. Here, high purity production of capsanthin and capsorubin has been achieved in carrot taproot by synthetic metabolic engineering strategy. Expression of a capsanthin-capsorubin synthase gene (CaCCS) from pepper resulted in dominant production of capsanthin whereas expression of a LiCCS gene from tiger lily resulted in production of both capsanthin and capsorubin in carrot taproot. The highest content of capsanthin and capsorubin was obtained in LiC-1 carrot taproot hosting the LiCCS gene, 150.09 μg/g DW (dry weight). Co-expression of DcBCH1 with CCS could improve the purity of capsanthin and capsorubin by eliminating the non-target carotenoids (eg. α-carotene and β-carotene). The highest purity of capsanthin and capsorubin was obtained in BLiC-1 carrot taproot hosting DcBCH1+LiCCS genes, 91.10% of total carotenoids. The non-native pigments were esterified partially and stored in the globular chromoplast of carrot taproot. Our results demonstrated the possibility of employing carrot taproot as green factories for high purity production of capsanthin and capsorubin. The capsanthin/capsorubin carrot germplasms were also valuable materials for breeding colorful carrots cultivars.