Effect of codon optimization on the enhancement of the β-carotene contents in rice endosperm

A β-carotene is the most well-known dietary source as provitamin A carotenoids. Among β-carotene-producing Golden Rice varieties, PAC ( Psy:2A:CrtI ) rice has been previously developed using a bicistronic recombinant gene that linked the Capsicum Psy and Pantoea CrtI genes by a viral 2A sequence. To enhance β-carotene content by improving this PAC gene, its codon was optimized for rice plants ( Oryza sativa L.) by minimizing the codon bias between the transgene donor and the host rice and was then artificially synthesized as stPAC ( stPsy : 2A : stCrtI ) gene. The GC content (58.7 from 50.9%) and codon adaptation index (0.85 from 0.77) of the stPAC gene were increased relative to the original PAC gene with 76% DNA identity. Among 67 T 1 seeds of stPAC transformants showing positive correlations between transgene copy numbers (up to three) and carotenoid contents, three stPAC lines with a single intact copy were chosen to minimize unintended insertional effects and compared to the representative line of the PAC transgene with respect to their codon optimization effects. Translation levels were stably increased in all three stPAC lines (3.0-, 2.5-, 2.9-fold). Moreover, a greater intensity of the yellow color of stPAC seeds was correlated with enhanced levels of β-carotene (4-fold, 2.37 μg/g) as well as total carotenoid (2.9-fold, 3.50 μg/g) relative to PAC seeds, suggesting a β-branch preference for the stPAC gene. As a result, the codon optimization of the transgene might be an effective tool in genetic engineering for crop improvement as proven at the enhanced levels of translation and carotenoid production.