ABSTRACT
Expression of the gene encoding bacterial hemoglobin (VHb) from Vitreoscilla has been previously used to improve recombinant cell growth and enhance product formation under microaerobic conditions. It is very likely that the properties of VHb are not optimized for foreign hosts; therefore, we used error-prone PCR to generate a number of randomly mutated vhb genes to be expressed and studied in Escherichia coli. In addition, the mutated VHb proteins also contained an extension of eight residues (MTMITPSF) at the amino terminus. VHb mutants were screened for improved growth properties under microaerobic conditions and 15 clones expressing mutated hemoglobin protein were selected for further characterization and cultivated in a microaerobic bioreactor to analyze the physiological effects of novel VHb proteins on cell growth. The expression of four VHb mutants, carried by pVM20, pVM50, pVM104, and pVM134, were able to enhance microaerobic growth of E. coli by approximately 22%, 155%, 50%, and 90%, respectively, with a concomitant decrease of acetate excretion into the culture medium. The vhb gene in pVM20 contains two mutations substituting residues Glu19(A17) and Glu137(H23) to Gly. pVM50 expresses a VHb protein carrying two mutations: His36(C1) to Arg36 and Gln66(E20) to Arg66. pVM104 and pVM134 express VHb proteins carrying the mutations Ala56(E10) to Gly and Ile24(B5) to Thr, respectively. Our experiments also indicate that the positive effects elicited by mutant VHb-expression from pVM20 and pVM50 are linked to the peptide tail. Removal of the N-terminal sequence reduced cell growth approximately 23% and 53%, respectively, relative to wild-type controls. These results clearly demonstrate that it is possible to obtain mutated VHb proteins with improved characteristics for improving microaerobic growth of E. coli by using combined mutation techniques, addition of a peptide tail, and random error-prone PCR.
