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Heterologous production of the widely used natural food colorant carminic acid in Aspergillus nidulans.

Sci Rep. 2018; 
FrandsenRasmus J N,Khorsand-JamalPaiman,KongstadKenneth T,NafisiMajse,KannangaraRubini M,StaerkDan,OkkelsFinn T,BinderupKim,MadsenBjørn,MøllerBirger Lindberg,ThraneUlf,MortensenUf
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Codon Optimization Te coding sequences for OKS (Genbank accession no.: Q3L7F5) from Aloe arborescens was de novo synthesized by GenScript (Hong Kong, PRC) both with the original codon usage and as codon optimized for expression in Aspergillus. Codon optimization was performed via GenScript’s OptimumGeneTm algorithm. R1128 were codon optimized for expression in Aspergillus and de novo synthesized by GenScript (Hong Kong, PRC). Te UGT2 (Genbank accession no.:KY860725) from D. coccus was codon optimized for expression in Aspergillus and de novo synthesized by GenScript. Get A Quote

摘要

The natural red food colorants carmine (E120) and carminic acid are currently produced from scale insects. The access to raw material is limited and current production is sensitive to fluctuation in weather conditions. A cheaper and more stable supply is therefore desirable. Here we present the first proof-of-concept of heterologous microbial production of carminic acid in Aspergillus nidulans by developing a semi-natural biosynthetic pathway. Formation of the tricyclic core of carminic acid is achieved via a two-step process wherein a plant type III polyketide synthase (PKS) forms a non-reduced linear octaketide, which subsequently is folded into the desired flavokermesic acid anthrone (FKA) structure by a c... More

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