SYNTHETIC AND SYSTEMS BIOTECHNOLOGY, v.4, no.3, pp.157 - 164
Abstract
Lactic acid has two stereoisomers of D(−)- and L(+)-forms, both of which are important monomers of biodegradable plastic, poly-lactic acid. In this study, a novel D-lactate inducible system was identified in Pseudomonas fluorescens A506, partially characterized and tested as biosensor. The D-lactate catabolic operon (lldP-dld-II) was negatively regulated through the inversely transcribed D-lldR (encoding a GntR-type regulator), where the repression is relieved by addition of D-lactate. The derepression was specific to D-lactate and marginally affected by L-lactate. The D-LldR-responsive operator, showing dyad symmetry and separated by one base, was located between +11 and + 27 from the transcription start site of the lldP-dld-II operon. By site-directed mutagenesis, a motif with a dyad symmetry (AATTGGTAtTACCAATT), present in the upstream region of lldP, was identified as essential for the binding of LldR. D-lactate biosensors were developed by connecting the upregulation by D-lactate to a green fluorescent readout. About ~6.0-fold induction by 100 mM D-lactate was observed compared to L-lactate.