The role of key genes in astaxanthin biosynthesis in Phaffia rhodozyma by transcript level and gene knockout

Phaffia rhodozyma is a potential industrial source of natural astaxanthin. Dicyclic and monocyclic pathways of carotenoid synthesis are important nodes in Phaffia rhodozyma, but the relationship between the two pathways and astaxanthin production remains unclear. Eight genes related to dicyclic and monocyclic pathways in three different strains of P. rhodozyma were analysed, and the relationship between expression and astaxanthin biosynthesis was explored. Among these genes, CRTS genes (R = 0.69, P < 0.05) and CRTYB (R = 0.75, P < 0.05) showed the closest correlations with carotenoid and astaxanthin biosynthesis, respectively. To further study these relationships in detail, the CRTYB and CRTS genes were knocked out by homologous recombination. After CRTYB knockout, astaxanthin was decreased to an undetectable level. This result suggested that CRTYB plays a role in dicyclic and monocyclic pathways. Meanwhile, the CRTS gene was in the dicyclic pathway of astaxanthin biosynthesis, and its knockout promoted the monocyclic pathway and resulted in a 25 % increase in astaxanthin production at 120 h. The possible rate-limiting enzymes were the enzymes encoding CRTS and CRTYB by regression analysis. Knockout of the CRTS and CRTYB genes was helpful in understanding the synthetic pathway of astaxanthin and significant to the industrial application of astaxanthin production.

Automated summary

Phaffia rhodozyma is a potential industrial source of natural astaxanthin. This study analyzed the relationship between two pathways (dicyclic and monocyclic) and astaxanthin production in P. rhodozyma. Knockout of CRTYB gene resulted in undetectable astaxanthin levels, indicating its importance in both pathways. Knockout of CRTS gene promoted the monocyclic pathway and increased astaxanthin production.