Litcius/Paper detail

Extracellular degradation of a polyurethane oligomer involving outer membrane vesicles and further insights on the degradation of 2,4-diaminotoluene in Pseudomonas capeferrum TDA1

Òscar Puiggené, María José Cárdenas, Dietmar Schlößer, Stephan Thies, Nico Jehmlich, Uwe Kappelmeyer, S Schreiber, Daniel Wibberg, Joern Kalinowski, Hauke Harms, Hermann J. Heipieper, Christian Eberlein

2022Scientific Reports51 citationsDOIOpen Access PDF

Abstract

The continuing reports of plastic pollution in various ecosystems highlight the threat posed by the ever-increasing consumption of synthetic polymers. Therefore, Pseudomonas capeferrum TDA1, a strain recently isolated from a plastic dump site, was examined further regarding its ability to degrade polyurethane (PU) compounds. The previously reported degradation pathway for 2,4-toluene diamine, a precursor and degradation intermediate of PU, could be confirmed by RNA-seq in this organism. In addition, different cell fractions of cells grown on a PU oligomer were tested for extracellular hydrolytic activity using a standard assay. Strikingly, purified outer membrane vesicles (OMV) of P. capeferrum TDA1 grown on a PU oligomer showed higher esterase activity than cell pellets. Hydrolases in the OMV fraction possibly involved in extracellular PU degradation were identified by mass spectrometry. On this basis, we propose a model for extracellular degradation of polyester-based PUs by P. capeferrum TDA1 involving the role of OMVs in synthetic polymer degradation.

Topics & Concepts

OligomerDegradation (telecommunications)PolyurethaneChemistryExtracellularBiodegradationExtracellular vesicleMembranePolyesterPolymerBiochemistryPolymer chemistryOrganic chemistryMicrovesiclesTelecommunicationsGeneComputer sciencemicroRNABacterial biofilms and quorum sensingLegionella and Acanthamoeba researchMarine Biology and Environmental Chemistry