ananatis SC17(0) Deletion of the mentioned ORF (named gcd) from

ananatis SC17(0). Deletion of the mentioned ORF (named gcd) from the P. ananatis SC17(0) genome led to the inability of mutant cells to accumulate gluconic acid in the media (Table 4) and to the abolition of GDH activity in their extracts (Table 2). Thus, it was confirmed that GU580893 indeed encoded GDH (likely membrane-bound GDH). Moreover, it could Pictilisib supplier be proposed that P. ananatis SC17(0) is able to oxidize glucose into gluconic acid by the fully active PQQ-mGDH

and that the corresponding genetic elements responsible for PQQ biosynthesis must be identified in the genome of this microorganism. A putative pqqABCDEF operon (GenBank accession number GU580892), structurally homologous to the similar genetic element in the Klebsiella pneumoniae chromosome (Meulenberg et al., 1992), was found in the genome of P. ananatis SC17(0) via a computer search. There was a high level of amino acid homology between putative polypeptides of P. ananatis and experimentally

confirmed proteins from K. pneumoniae: PqqB(84%), PqqC (91%), selleck inhibitor PqqD (75%), PqqE (84%) and PqqF(43%). For P. ananatis PqqA, differences were observed for two amino acid residues Thr6 and Val8. However, conservative Glu15 and Tyr19, which in the case of K. pneumoniae presumably appear as precursors of the PQQ molecule (Velterop et al., 1995), were at the same positions in the putative PqqA of P. ananatis. To determine whether the putative pqq operon was essential for PQQ biosynthesis in P. ananatis SC17(0), two types of strains were constructed; the

first lacked this genetic element and the second had an additional copy of the pqq operon in the chromosome. Deletion of the predicted P. EGFR antibody ananatis pqq operon led to the inability of mutant cells to accumulate gluconic (Table 4) acid and to the abolition of GDH activity in their extracts (Table 2) without exogenous PQQ in reaction in distinction from GDH extracted from P. ananatis SC17(0). Thus, it was confirmed that PQQ is indeed essential for the formation of active holoenzyme GDH and predicted pqq operon encoded genetic elements essential for PQQ biosynthesis. Construction of the strain SC17(0)-φ80attB-pqq was achieved by in vivo cloning of the pqq operon (see Supporting Information) and adaptation of ‘Dual In/Out’ Recombineering-driven strategy for the integration of DNA fragments into targeted points of the E. coli chromosome (Minaeva et al., 2008) for application in P. ananatis. The scheme applied in this work could be a useful instrument for the simple amplification of target genes/operons in the chromosome without preliminary amplification by PCR. The resulting strains, SC17(0)-Δpqq with the ΔpqqABCDEF operon and SC17(0)-φ80attB-pqq with two copies of this operon in the chromosome, were tested for their ability to accumulate PQQ in cultural medium. Inactivation of the putative pqq operon resulted in a decrease of PQQ in the medium to undetectable levels (<1 mg L−1).

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