Polyhydroxyalkanoates (PHAs) are considerable biopolymers that have gained an increasing biotechnological interest in different applications, although their industrial production presents several limitations. Filamentous bacterial cells could represent a possible strategy to increase PHA yield, since more abundant PHA inclusions can be stored in elongated than in rod-shaped cells. At first, we determined the optimal batch culture conditions to induce filamentation in Pseudomonas mediterranea CFBP-5447T, using glutamine, glycerol, glucose, and sodium octanoate, as the sole carbon source, at low- (100 rpm) or high- (250 rpm) shaking speeds. Successively, a fermentative process was set up using glutamine in a co-metabolic strategy with glycerol, and the PHAs production was compared in rod-shaped and filamentous cells. High glutamine concentrations (from 28 to 56 mM) were able to induce alone filamentation, whereas at lower glutamine concentrations (5-10 mM), the shaking speeds became critical to allow or not filamentous phenotype. PHA granule production was higher in filamentous than in rod-shaped cells, when glycerol (46.6 mM) was added to glutamine (5 mM) in co-metabolism, and fermentation was performed at a low-shaking speed. After extraction and precipitation, PHA yield was about two times higher in filamentous than that rod-shaped cells. Our results provide new insights into filament-inducing conditions and indicate a potential use of filamentous P. mediterranea CFBP-5447T cells to increase PHA yield. These findings could have great advantages in PHAs recovering during downstream processes, since the harvesting of elongated cells is much less time-consuming and energy expensive than required with rod-shaped cells.

Glutamine-induced filamentous cells of Pseudomonas mediterranea CFBP-5447T as producers of PHAs

Rizzo M. G.;Nicolo M. S.;Franco D.
;
De Plano L. M.;CHINES, VALERIA;Gugliandolo C.;Guglielmino S. P. P.
2019

Abstract

Polyhydroxyalkanoates (PHAs) are considerable biopolymers that have gained an increasing biotechnological interest in different applications, although their industrial production presents several limitations. Filamentous bacterial cells could represent a possible strategy to increase PHA yield, since more abundant PHA inclusions can be stored in elongated than in rod-shaped cells. At first, we determined the optimal batch culture conditions to induce filamentation in Pseudomonas mediterranea CFBP-5447T, using glutamine, glycerol, glucose, and sodium octanoate, as the sole carbon source, at low- (100 rpm) or high- (250 rpm) shaking speeds. Successively, a fermentative process was set up using glutamine in a co-metabolic strategy with glycerol, and the PHAs production was compared in rod-shaped and filamentous cells. High glutamine concentrations (from 28 to 56 mM) were able to induce alone filamentation, whereas at lower glutamine concentrations (5-10 mM), the shaking speeds became critical to allow or not filamentous phenotype. PHA granule production was higher in filamentous than in rod-shaped cells, when glycerol (46.6 mM) was added to glutamine (5 mM) in co-metabolism, and fermentation was performed at a low-shaking speed. After extraction and precipitation, PHA yield was about two times higher in filamentous than that rod-shaped cells. Our results provide new insights into filament-inducing conditions and indicate a potential use of filamentous P. mediterranea CFBP-5447T cells to increase PHA yield. These findings could have great advantages in PHAs recovering during downstream processes, since the harvesting of elongated cells is much less time-consuming and energy expensive than required with rod-shaped cells.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11570/3147791
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