Complete Biosynthetic Pathway of the C50Carotenoid Bacterioruberin from Lycopene in the Extremely Halophilic Archaeon Haloarcula japonica

Abstract

ABSTRACTHaloarcula japonica, an extremely halophilic archaeon that requires high concentrations of NaCl for growth, accumulates the C50carotenoid bacterioruberin (BR). By homology analysis, a gene cluster, includingc0507,c0506, andc0505, was found and predicted to be involved in the synthesis of bacterioruberin. To elucidate the function of the encoded enzymes, we constructedHa. japonicamutants of these genes and analyzed carotenoids produced by the mutants. Our research showed thatc0507,c0506, andc0505encoded a carotenoid 3,4-desaturase (CrtD), a bifunctional lycopene elongase and 1,2-hydratase (LyeJ), and a C50carotenoid 2″,3″-hydratase (CruF), respectively. The above three carotenoid biosynthetic enzymes catalyze the reactions that convert lycopene to bacterioruberin inHa. japonica. This is the first identification of functional CrtD and CruF in archaea and elucidation of the complete biosynthetic pathway of bacterioruberin from lycopene.IMPORTANCEHaloarcula japonica, an extremely halophilic archaeon, accumulates the C50carotenoid bacterioruberin (BR). In this study, we have identified three BR biosynthetic enzymes and have elucidated their functions. Among them, two enzymes were found in an archaeon for the first time. Our results revealed the biosynthetic pathway responsible for production of BR inHa. japonicaand provide a basis for investigating carotenoid biosynthetic pathways in other extremely halophilic archaea. Elucidation of the carotenoid biosynthetic pathway inHa. japonicamay also prove useful for producing the C50carotenoid BR efficiently by employing genetically modified haloarchaeal strains.