Mohanan_2023_Int.J.Mol.Sci_24_

Reference

Title : Polymer-Degrading Enzymes of Pseudomonas chloroaphis PA23 Display Broad Substrate Preferences - Mohanan_2023_Int.J.Mol.Sci_24_
Author(s) : Mohanan N , Wong MC , Budisa N , Levin DB
Ref : Int J Mol Sci , 24 : , 2023
Abstract :

Although many bacterial lipases and PHA depolymerases have been identified, cloned, and characterized, there is very little information on the potential application of lipases and PHA depolymerases, especially intracellular enzymes, for the degradation of polyester polymers/plastics. We identified genes encoding an intracellular lipase (LIP3), an extracellular lipase (LIP4), and an intracellular PHA depolymerase (PhaZ) in the genome of the bacterium Pseudomonas chlororaphis PA23. We cloned these genes into Escherichia coli and then expressed, purified, and characterized the biochemistry and substrate preferences of the enzymes they encode. Our data suggest that the LIP3, LIP4, and PhaZ enzymes differ significantly in their biochemical and biophysical properties, structural-folding characteristics, and the absence or presence of a lid domain. Despite their different properties, the enzymes exhibited broad substrate specificity and were able to hydrolyze both short- and medium-chain length polyhydroxyalkanoates (PHAs), para-nitrophenyl (pNP) alkanoates, and polylactic acid (PLA). Gel Permeation Chromatography (GPC) analyses of the polymers treated with LIP3, LIP4, and PhaZ revealed significant degradation of both the biodegradable as well as the synthetic polymers poly(sigma-caprolactone) (PCL) and polyethylene succinate (PES).

PubMedSearch : Mohanan_2023_Int.J.Mol.Sci_24_
PubMedID: 36901931
Gene_locus related to this paper: psecl-LIP3 , psecl-LIP4 , psecl-PHAZ

Related information

Substrate Polylactic-acid
Gene_locus psecl-LIP3    psecl-LIP4    psecl-PHAZ

Citations formats

Mohanan N, Wong MC, Budisa N, Levin DB (2023)
Polymer-Degrading Enzymes of Pseudomonas chloroaphis PA23 Display Broad Substrate Preferences
Int J Mol Sci 24 :

Mohanan N, Wong MC, Budisa N, Levin DB (2023)
Int J Mol Sci 24 :