Challenges, progress, and future perspectives for cyanobacterial polyhydroxyalkanoate production

Rueda, Estel; Gonzalez-Flo, Eva; Mondal, Soumila; Forchhammer, Karl; Arias, Dulce María; Ludwig, Katharina; Drosg, Bernhard; Fritz, Ines; Gonzalez-Esquer, C. Raul; Pacheco, Sara; García, Joan

doi:10.1007/s11157-024-09689-0

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Cited by 4 publications

References 140 publications

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A Two-step Protocol for Enhanced Recovery of Poly-β-hydroxy Butyric Acid (PHB) from Spirulina Biomass Produced in Amended Aquaculture Wastewater

Anjana,

Shukla,

Kumar

et al. 2025

Waste Biomass Valor

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A Two-step Protocol for Enhanced Recovery of Poly-β-hydroxy Butyric Acid (PHB) from Spirulina Biomass Produced in Amended Aquaculture Wastewater

Anjana,

Shukla,

Kumar

et al. 2025

Waste Biomass Valor

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Exploring simultaneous production of polyhydroxybutyrate and exopolysaccharides in cyanobacteria-rich microbiomes

Altamira-Algarra,

García,

Torres

et al. 2024

Preprint

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The aim of this study was to explore the viability of the dual production of polyhydroxybutyrate (PHB) and exopolysaccharides (EPS) by seven microbiomes rich in cyanobacteria. Our initial experiments involved to screen for EPS-producing candidates and examine the impact of salinity and acetate on EPS synthesis. Salinity’s known influence on EPS production and acetate’s role in enhancing PHB production guided our parameter selection. Surprisingly, neither the introduction of an external carbon source (acetate) nor exposure to an abiotic stressor (salt) significantly altered EPS synthesis rates, which ranged from 25 to 150 mg·L-1, or its composition, with glucose being the dominant sugar component. Scaling up to a 3 L photobioreactor, we achieved simultaneous biopolymer production, reaching up to 205 mg·L-1EPS and 87 mg·L-1PHB. Additionally, the presence of uronic acid in the EPS facilitated biomass flocculation, streamlining the separation process, and potentially reducing associated time and costs.

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Unveiling the potential of microalgae for bioplastic production from wastewater – current trends, innovations, and future prospects

Sharma,

Solanki,

Chaudhary

et al. 2024

Biotechnol Sustain Mater

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Challenges, progress, and future perspectives for cyanobacterial polyhydroxyalkanoate production

Cited by 4 publications

References 140 publications

A Two-step Protocol for Enhanced Recovery of Poly-β-hydroxy Butyric Acid (PHB) from Spirulina Biomass Produced in Amended Aquaculture Wastewater

A Two-step Protocol for Enhanced Recovery of Poly-β-hydroxy Butyric Acid (PHB) from Spirulina Biomass Produced in Amended Aquaculture Wastewater

Exploring simultaneous production of polyhydroxybutyrate and exopolysaccharides in cyanobacteria-rich microbiomes

Unveiling the potential of microalgae for bioplastic production from wastewater – current trends, innovations, and future prospects

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