Upgrading end-of-line residues of the red seaweed Gelidium sesquipedale to polyhydroxyalkanoates using Halomonas boliviensis

Agar extraction from Gelidium and Gracilaria red seaweed species produces hundred thousand ton of carbohydrate-rich residues annually. Gelidium sesquipedale waste biomass obtained after agar extraction, still contained 44.2 % w/w total carbohydrates (dry-weight basis). These residues were biological...

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Bibliographic Details
Main Author: Tuna, Stepan (author)
Other Authors: Izaguirre, Jon (author), Bondar, Marina (author), Marques, Mafalda (author), Fernandes, Pedro Carlos de Barros (author), Fonseca, Maria Manuela Regalo da (author), Cesário, Maria (author)
Format: article
Language:eng
Published: 2020
Subjects:
BIOTECNOLOGIA
GELIDIUM SESQUIPEDALE
HALOMONAS BOLIVIENSIS
RESÍDUOS DE ALGAS MARINHAS
POLI-3-HIDROXIBUTIRATO
RESÍDUOS DE MACROALGAS
ENGENHARIA BIOTECNOLÓGICA
ALGAS
BIOTECHNOLOGY
SEAWEED RESIDUES
POLY-3-HYDROXYBUTYRATE
MACROALGAE RESIDUES
BIOTECHNOLOGY ENGINEERING
ALGAE
Online Access:https://www.sciencedirect.com/science/article/pii/S2215017X20301892#!
Country:Portugal
Oai:oai:recil.ensinolusofona.pt:10437/10408
Description
Summary:Agar extraction from Gelidium and Gracilaria red seaweed species produces hundred thousand ton of carbohydrate-rich residues annually. Gelidium sesquipedale waste biomass obtained after agar extraction, still contained 44.2 % w/w total carbohydrates (dry-weight basis). These residues were biologically up-graded to poly-3-hydroxybutyrate (P3HB) after saccharification of their carbohydrate fraction to simple sugars. A combined hydrolysis treatment using sulfamic acid followed by enzymatic hydrolysis with cellulases produced a glucose-rich hydrolysate with a negligible content of inhibitors. With this treatment a sugar yield of circa 30 % (g glucose/g biomass) was attained. The algal hydrolysates were assessed as carbon source for the production of P3HB by the halotolerant bacteria Halomonas boliviensis. A cell concentration of 8.3 g L−1 containing 41 % (w/w) of polymer and a yield (YP/S) of 0.16 gpolymer/gglucose were attained in shake flask assays. In this work, cellulose-rich seaweed waste was shown to be an upgradable, sustainable source of carbohydrates.

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