Abstract
A biosensor based on the most active caprolactam-degrading strain Pseudomonas putida BS394(pBS268) was used in the study of aerobic degradation of linear caprolactam oligomers by bacterial cells. The changes in the respiratory activity of the strain depend quantitatively on caprolactam dimer concentration, making it possible to develop biosensors for detection of caprolactam oligomers in aqueous media. Based on mass spectrometry data, the scheme of transformation of linear caprolactam oligomers by the degrader strain P. putida BS394(pBS268) was proposed for the first time. It was found that oxidative transamination to respective dicarbonic acids may be one of the mechanisms of transformation of linear caprolactam oligomers. According to the scheme proposed, the ability of the caprolactam-degrading strain to transform linear oligomers results from the broad substrate specificities of two enzymes of the caprolactam degradation pathway: 2-oxoglutarate-6-aminohexanoate transaminase and 6-oxohexanoate dehydrogenase. Transformation of linear oligomers is genetically controlled by the CAP biodegradation plasmid pBS268.
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