Functional characterization of the < em > dbu < /em > locus for D-branched-chain amino acid catabolism in < em > Pseudomonas putida < /em >

Appl Environ Microbiol. 2024 Jan 30:e0196223. doi: 10.1128/aem.01962-23. Online ahead of print.ABSTRACTPseudomonas putida is a metabolically robust soil bacterium that employs a diverse set of pathways to utilize a wide range of nutrients. The versatility of this microorganism contributes to both its environmental ubiquity and its rising popularity as a bioengineering chassis. In P. putida, the newly named dbu locus encodes a transcriptional regulator (DbuR), D-amino acid oxidase (DbuA), Rid2 protein (DbuB), and a putative transporter (DbuC). Current annotation implicates this locus in the utilization of D-arginine. However, data obtained in this study showed that genes in the dbu locus are not required for D-arginine utilization, but, rather, this locus is involved in the catabolism of multiple D-branched-chain amino acids (D-BCAA). The oxidase DbuA was required for catabolism of each D-BCAA and D-phenylalanine, while the requirements for DbuC and DbuB were less stringent. The functional characterization of the dbu locus contributes to our understanding of the metabolic network of P. putida and proposes divergence in function between proteins annotated as D-arginine oxidases across the Pseudomonas genus.IMPORTANCEPseudomonas putida is a non-pathogenic bacterium that is broadly utilized as a host for bioengineering and bioremediation efforts. The popularity of P. putida as a chassis for such efforts is attributable to its physiological versatility and ability to metabolize a ...
Source: Applied and Environmental Microbiology - Category: Microbiology Authors: Source Type: research