Characterization of monoterpene biotransformation in two pseudomonads

Aims:  To study the metabolic profile of Pseudomonas rhodesiae and Pseudomonas fluorescens in water–organic solvent systems using terpene substrates for both growth and biotransformation processes and to determine the aerobic or anaerobic status of these degradation pathways. Materials and Methods:  Substrates from pinene (α‐pinene, α‐pinene oxide, β‐pinene, β‐pinene oxide, turpentine) and limonene (limonene, limonene‐1,2‐oxide, orange peel oil) families were tested. For the bioconversion, the terpene‐grown biomass was concentrated and used either as whole cells or as a crude enzymatic extract. Conclusion:  Pseudomonas rhodesiae was the most suitable biocatalyst for the production of isonovalal from α‐pinene oxide and did not metabolize limonene. Pseudomonas fluorescens was a more versatile micro‐organism and metabolized limonene in two different ways. The first (anaerobic, cofactor‐independent, noninducible) allowed limonene elimination by synthesizing α‐terpineol. The second (aerobic, cofactor‐dependent) involved limonene‐1,2‐oxide as an intermediate for energy production through a β‐oxidation process. Significance and Impact of the Study:  Enzymatic isomerization of β‐ to α‐pinene was described for the first time for both strains. Alpha‐terpineol production by P. fluorescens was very efficient and appeared as a promising alternative for the commercial production of this bioflavour.