Published: CABEQ 31 (1) (2018) 141–150
Paper type: Original Scientific Paper
P. R. Rodrigues and J. I. Druzian
Abstract
Polyhydroxyalkanoates (PHAs) are a group of biodegradable polymers produced
from renewable sources by prokaryotic biocatalysts, accumulated intracellularly for energy and carbon storage. In the present study, production and characterization of PHAs synthetized by Cupriavidus necator (IPT 026 and IPT 027) and Burkholderia cepacia (IPT 119 and IPT 400) were evaluated using crude palm oil (C16:0 = 26.44 %, C18:1 = 54.50 %, C18:2 = 13.41 %) as substrate (15 g L–1 crude palm oil, pH 7.0, 180 rpm, 72 h). All strains were able to synthesize novel PHA copolymers (0.10–1.45 g L–1), and IPT 027 displayed the highest production. Copolymers monomeric composition (Mw = 173.78–389.30 kDa) was comprised mostly of hydroxyhexadecanoate (41.43–53.15 %) and hydroxy-9-octadecenoate (14.91–29.61 %). PHAs were predominantly amorphous, showed low polydispersity, and good thermal stability (Tonset ≥ 283 °C), which increased proportionally to crystallinity. Crude palm oil constitutes an emerging alternative for PHAs production, and microorganism strains strongly affect polymer accumulation, monomeric composition, molar mass, and properties.
(This work is licensed under a Creative Commons Attribution 4.0 International License.)
This work is licensed under a Creative Commons Attribution 4.0 International License
Keywords
Elaeis guineensis, bioconversion, PHA, characterization