Inactivation of mrpigH gene in monascus ruber M7 results in increased monascus pigments and decreased citrinin with mrpyrG selection marker

Abstract

Monascus pigments (MPs) have been used as food colorants for several centuries in Asian countries and are currently used around the world via Asian catering. The MPs biosynthetic pathway has been well-illustrated; however, the functions of a few genes including mrpigH in the MPs gene cluster of M. ruber M7 are still unclear. In the current study, mrpigH was disrupted in ∆mrlig4∆mrpyrG, a highly efficient gene modification system, using mrpyrG as a selection marker, and ∆mrpigH∆mrlig4∆mrpyrG::mrpyrG and ∆mrpigH∆mrlig4∆mrpyrG have been obtained. Subsequently, their morphologies, biomasses, MPs and citrinin (CIT) production were analyzed, respectively. These results have revealed that the deletion of mrpigH has significant effects on the morphology and growth of M. ruber M7. Moreover, compared with M. ruber M7, the yields of MPs and CIT were drastically increased and decreased in mrpigH mutants, respectively.