Synthesis and Physical Properties of Polyhydroxyalkanoate Polymers with Different Monomer Compositions by Recombinant Pseudomonas putida LS46 Expressing a Novel PHA SYNTHASE (PhaC116) Enzyme

Parveen Sharma,Juijun Cheng,Warren Blunt,David Levin,Riffat Munir,Trevor Charles,Chris Dartiailh

doi:10.3390/app7030242

Parveen Sharma, Juijun Cheng + Show 5 more

Open Access

https://doi.org/10.3390/app7030242

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Journal: Applied sciences	Publication Date: Mar 3, 2017
Citations: 48	License type: CC BY 4.0

Affiliation: University of Manitoba, University of Waterloo

Abstract

A recombinant of Pseudomonas putida LS461 (deletion of the phaC1phaZphaC2 genes) was constructed by introducing cosmid JC123 carrying a novel phaC116 gene from a metagenomic clone. The resulting strain, P. putida LS46123, was able to synthesize polyhydroxyalkanoate (PHA) polymers with novel monomer compositions when cultured on glucose or free fatty acids, and accumulated PHAs from 9.24% to 27.09% of cell dry weight. The PHAs synthesized by P. putida LS46123 contained up to 50 mol % short chain length subunits (3-hydroxybutyrate and 3-hydroxyvalerate), with the remaining monomers consisting of various medium chain length subunits. The PhaC116 protein expressed by P. putida LS46123 had an amino acid sequence similarity of 45% with the PhaC1 protein of the parent strain, P. putida LS46. Predicted 3D structures of the PhaC116 proteins from P. putida LS46123 and P. putida LS46 revealed several differences in the numbers and locations of protein secondary structures. The physical and thermal properties of the novel polymers synthesized by P. putida LS46123 cultured with glucose or free fatty acids differed significantly from those produced by P. putida LS46 grown on the same substrates. PHA polymers with different subunit compositions, and hence different physical and thermal properties, can be tailor-made using novel PHA synthase for specific applications.

Highlights

Polyhydroxyalkanoates (PHAs) have attracted extensive interest as environmentally friendly biodegradable plastics [1]
PHAs have been classified as short chain length PHAs (SCL-PHA) and medium chain length PHAs (MCL-PHAs), based on the monomer composition of the polymers
We report on the physical and thermal properties of PHA polymers with novel subunit composition synthesized by P. putida LS46123 cultured on fatty acids and glucose, as well as on differences in the amino acid sequences and predicted 3D structures of the PhaC1 enzymes expressed by P. putida LS 46 and P. putida LS 46123

Summary

Introduction

Polyhydroxyalkanoates (PHAs) have attracted extensive interest as environmentally friendly biodegradable plastics [1]. Many bacteria synthesize PHA polymers as carbon and energy storage reserves when they are grown under nutrient-limitation conditions [2]. PHAs have been classified as short chain length PHAs (SCL-PHA) and medium chain length PHAs (MCL-PHAs), based on the monomer composition of the polymers. The SCL-PHAs consist of 3-hydroxy fatty acid subunits containing four to five carbons, while MCL-PHA have 3-hydroxy fatty acid subunits containing six to. More than 100 different types of monomer units have been identified in PHA polymers [3].

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