Site-directed mutagenesis enhances the activity of NADH-FMN oxidoreductase (DszD) activity of Rhodococcus erythropolis.

Microbial desulfurization is potentially an alternative process to chemical desulfurization of fossil fuels and their refined products. The dibenzothiophene desulfurizing system of Rhodococcus erythropolis includes DszD which is an NADH-dependent FMN oxidoreductase with 192 residues that is responsible for supplying reducing equivalents in the form of FMNH(2) to monooxygenases, DszA and DszC. We performed amino acid sequence comparisons and structural predictions based on the crystal structure of available pdb files for three flavin reductases PheA2, HpaC(Tt) and HpaC(St) with the closest structural homology to IGTS8 DszD. The Thr62 residue in DszD was substituted with Asn and Ala by site-directed single amino acid mutagenesis. Variants T62N and T62A showed 5 and 7 fold increase in activities based on the recombinant wild type DszD, respectively. This study revealed the critical role of position 62 in enzyme activity. These results represent the first experimental report on flavin reductase mutation in R. erythropolis and will pave the way for further optimization of the biodesulfurization process.

Production of a recombinant alkane hydroxylase (AlkB2) from Alcanivorax borkumensis.

Alcanivorax borkumensis is an oil-degrading marine bacterium. Its genome contains genes coding for three cytochrome P450s and two integral membrane alkane hydroxylases (AlkB1 & AlkB2), all assumed to perform hydroxylation of different linear or branched alkanes. Although, the sequence of alkB2 has been determined, the molecular characterization and the substrate specificity of AlkB2 require more precise investigation. In this study, AlkB2 from A. borkumensis SK2 was expressed in Escherichia coli to examine the functionality of AlkB2 as a hydroxylating enzyme. Furthermore, the activity of the enzyme in the presence of the accessory proteins, rubredoxin (RubA) and rubredoxin reductase (RubB), produced in E. coli BL21(DE3)plysS cells, was determined. Recombinant AlkB2 is produced in an active form and rubredoxin is the intermediate electron donor to AlkB2 and can replace AlkG function, when NADH is the prime electron donor.