J Helm1, K-D Wendlandt, M Jechorek, U Stottmeister. 1. Department of Bioremediation, Helmholtz Centre for Environmental Research - UFZ, Leipzig, Germany. jslinek@ph.ed.ac.uk
Abstract
AIMS: To investigate the effect of various single nutrient deficiencies on poly-beta-hydroxybutyrate (PHB) biosynthesis in a methane-utilizing mixed culture (dominant species Methylocystis sp. GB 25 DSM 7674). METHODS AND RESULTS: Poly-beta-hydroxybutyrate accumulation experiments were performed in 7 and 70 l bioreactors and initiated by potassium, sulfur or iron deficiency. After 24 h the PHB content reached levels of 33.6%, 32.6% and 10.4% respectively. Interestingly a polymer with an ultra-high average-weight molecular weight (M(w)) of 3.1 MDa was accumulated under potassium-limited conditions. When sulfur and iron were lacking M(w) were lower by 20.6 and 41.6%. Potassium-deficiency experiments were furthermore characterized by a maximum specific PHB formation rate 0.08 g g(-1)residual biomass (R) h(-1) and a yield coefficient of 0.45 g PHB g(-1) CH(4). CONCLUSIONS: Biosynthesis of an ultra-high M(w) PHB in a methane-utilizing mixed culture can be induced by potassium deficiency. SIGNIFICANCE AND IMPACT OF THE STUDY: This study greatly extends the knowledge in the field of bacterial biopolymer formation with gaseous substrates. The special system used here combines the use of methane a low-cost substrate available from natural and renewable sources with the possibility of employing a mixed-culture in an open system for the synthesis of a high-value product.
AIMS: To investigate the effect of various single nutrient deficiencies on poly-beta-hydroxybutyrate (PHB) biosynthesis in a methane-utilizing mixed culture (dominant species Methylocystis sp. GB 25 DSM 7674). METHODS AND RESULTS:Poly-beta-hydroxybutyrate accumulation experiments were performed in 7 and 70 l bioreactors and initiated by potassium, sulfur or iron deficiency. After 24 h the PHB content reached levels of 33.6%, 32.6% and 10.4% respectively. Interestingly a polymer with an ultra-high average-weight molecular weight (M(w)) of 3.1 MDa was accumulated under potassium-limited conditions. When sulfur and iron were lacking M(w) were lower by 20.6 and 41.6%. Potassium-deficiency experiments were furthermore characterized by a maximum specific PHB formation rate 0.08 g g(-1)residual biomass (R) h(-1) and a yield coefficient of 0.45 g PHB g(-1) CH(4). CONCLUSIONS: Biosynthesis of an ultra-high M(w) PHB in a methane-utilizing mixed culture can be induced by potassium deficiency. SIGNIFICANCE AND IMPACT OF THE STUDY: This study greatly extends the knowledge in the field of bacterial biopolymer formation with gaseous substrates. The special system used here combines the use of methane a low-cost substrate available from natural and renewable sources with the possibility of employing a mixed-culture in an open system for the synthesis of a high-value product.
Authors: Simon Guerrero-Cruz; Annika Vaksmaa; Marcus A Horn; Helge Niemann; Maite Pijuan; Adrian Ho Journal: Front Microbiol Date: 2021-05-14 Impact factor: 5.640
Authors: Peter James Strong; Bronwyn Laycock; Syarifah Nuraqmar Syed Mahamud; Paul Douglas Jensen; Paul Andrew Lant; Gene Tyson; Steven Pratt Journal: Microorganisms Date: 2016-02-03