Among isoprenoids, carotenoids were the first group of compounds which were synthesized from foreign genes in non-carotenogenic Escherichia coli as a heterologous host. A great variety of carotenoids have been shown to be produced in E. coli due to the introduction of combinations of carotenoid biosynthesis genes, which were isolated from carotenogenic organisms. Carotenoids that have been produced in E. coli are mostly cyclic carotenoids that retain carbon 40 (C40) basic structure, except for acyclic carotene lycopene. On the other hand, acyclic carotenoids, which can also be produced in E. coli, comprise a group of carotenoids with diverse chain lengths, i.e., with C20, C30, C40, or C50 basic skeleton. As for acyclic C30, C40, and C50 carotenoids, carotenogenic genes of bacterial origin were needed, while a cleavage dioxygenase gene of higher-plant origin was utilized for the synthesis of acyclic C20 carotenoids. The present chapter is a review on the biosynthesis of such diverse acyclic carotenoids at the gene level.
Keywords: Acyclic carotenoids; C30 carotenoids; Combinatorial biosynthesis; Crocin; Escherichia coli.