Synthesis of di-rhamnolipids by the avirulent, mono-rhamnolipid producing strain Pseudomonas aeruginosa ATCC 9027

Abstract

AbstractTo construct a derivative of the avirulent Pseudomonas aeruginosa ATCC 9027 that produces high levels of di-rhamnolipid, that has better physico-chemical characteristics for biotechnological applications than mono-rhamnolipid, which is the sole type produced by ATCC 9027. We used plasmids expressing the rhlC gene, which encodes for rhamnosyl transferase II that transforms mono- to di-rhamnolipids under different promoters and in combination with the gene coding for the RhlR quorum sensing regulator, or the mono-rhamnolipid biosynthetic rhlAB operon. The plasmids tested carrying the rhlC gene under the lac promoter were plasmid prhlC and prhlRC, while prhlAB-R–C expressed this gene from the rhlA promoter, forming part of the artificially constructed rhlAB-R–C operon. We measured rhamnolipds concentrations using the orcinol method and determined the proportion of mono-rhamnolipids and di-rhamnolipids by UPLC/MS/MS. We found that the expression of rhlC in P. aeruginosa ATCC 9027 caused the production of di-rhamnolipids and that the derivative carrying plasmid prhlAB-R–C gives the best results considering total rhamnolipids and a higher proportion of di-rhamnolipids. A P. aeruginosa ATCC 9027 derivative with increased di-rhamnolipids production was developed by expressing plasmid prhlAB-R–C, that produces similar rhamnolipids levels as PAO1 type-strain and presented a higher proportion of di-rhamnolipids than this type-strain.