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High-throughput screening of acetogenic strains for growth and metabolite profiles on readily available biomass

Natálie Palucha (UGent) , Koen Quataert, Elodie Vlaeminck, Eliot Schröder, Karel De Winter and Wim Soetaert (UGent)
(2025) BIORESOURCE TECHNOLOGY. 419.
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Abstract
Abundant biomass, including industrial waste streams and second-generation (2G) and third-generation (3G) feedstocks, offers significant potential for sustainable bioconversion, nevertheless challenges such as fermentation inhibitors, CO2 losses and substrate selectivity of traditional microbial hosts hinder process efficiency. In this study, we address these challenges by exploring acetogenic bacteria as alternative microbial hosts. Using a newly established high-throughput method, acetogens were evaluated for their capacity to hydrolyse and metabolize variety of substrates derived from 2G and 3G feedstocks and industrial waste streams. Our findings demonstrate metabolic versatility of acetogens in converting biomass-derived substrates into a wide array of products while also exhibiting resilience to common fermentation inhibitors. These unique capabilities position acetogens as promising alternatives that could potentially outperform conventional production hosts in achieving 100% biomass valorization while underscoring the need for further research into critical areas, such as the utilization of mixed substrates under industrially relevant conditions.
Keywords
Acetogenic fermentation, Hydrolysate fermentation, Biomass valorisation, Fermentation inhibitors, Carbon circularity, ENERGY-CONSERVATION, ACETIC-ACID, FERMENTATION, BACTERIUM, ETHANOL, CO2, Biomass valorization

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Citation

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MLA
Palucha, Natálie, et al. “High-Throughput Screening of Acetogenic Strains for Growth and Metabolite Profiles on Readily Available Biomass.” BIORESOURCE TECHNOLOGY, vol. 419, 2025, doi:10.1016/j.biortech.2024.132026.
APA
Palucha, N., Quataert, K., Vlaeminck, E., Schröder, E., De Winter, K., & Soetaert, W. (2025). High-throughput screening of acetogenic strains for growth and metabolite profiles on readily available biomass. BIORESOURCE TECHNOLOGY, 419. https://doi.org/10.1016/j.biortech.2024.132026
Chicago author-date
Palucha, Natálie, Koen Quataert, Elodie Vlaeminck, Eliot Schröder, Karel De Winter, and Wim Soetaert. 2025. “High-Throughput Screening of Acetogenic Strains for Growth and Metabolite Profiles on Readily Available Biomass.” BIORESOURCE TECHNOLOGY 419. https://doi.org/10.1016/j.biortech.2024.132026.
Chicago author-date (all authors)
Palucha, Natálie, Koen Quataert, Elodie Vlaeminck, Eliot Schröder, Karel De Winter, and Wim Soetaert. 2025. “High-Throughput Screening of Acetogenic Strains for Growth and Metabolite Profiles on Readily Available Biomass.” BIORESOURCE TECHNOLOGY 419. doi:10.1016/j.biortech.2024.132026.
Vancouver
1.
Palucha N, Quataert K, Vlaeminck E, Schröder E, De Winter K, Soetaert W. High-throughput screening of acetogenic strains for growth and metabolite profiles on readily available biomass. BIORESOURCE TECHNOLOGY. 2025;419.
IEEE
[1]
N. Palucha, K. Quataert, E. Vlaeminck, E. Schröder, K. De Winter, and W. Soetaert, “High-throughput screening of acetogenic strains for growth and metabolite profiles on readily available biomass,” BIORESOURCE TECHNOLOGY, vol. 419, 2025.
@article{01JGP2NWQJQFF1D1VKDJVYG4RG,
  abstract     = {{Abundant biomass, including industrial waste streams and second-generation (2G) and third-generation (3G) feedstocks, offers significant potential for sustainable bioconversion, nevertheless challenges such as fermentation inhibitors, CO2 losses and substrate selectivity of traditional microbial hosts hinder process efficiency. In this study, we address these challenges by exploring acetogenic bacteria as alternative microbial hosts. Using a newly established high-throughput method, acetogens were evaluated for their capacity to hydrolyse and metabolize variety of substrates derived from 2G and 3G feedstocks and industrial waste streams. Our findings demonstrate metabolic versatility of acetogens in converting biomass-derived substrates into a wide array of products while also exhibiting resilience to common fermentation inhibitors. These unique capabilities position acetogens as promising alternatives that could potentially outperform conventional production hosts in achieving 100% biomass valorization while underscoring the need for further research into critical areas, such as the utilization of mixed substrates under industrially relevant conditions.}},
  articleno    = {{132026}},
  author       = {{Palucha, Natálie and Quataert, Koen and Vlaeminck, Elodie and Schröder, Eliot and De Winter, Karel and Soetaert, Wim}},
  issn         = {{0960-8524}},
  journal      = {{BIORESOURCE TECHNOLOGY}},
  keywords     = {{Acetogenic fermentation,Hydrolysate fermentation,Biomass valorisation,Fermentation inhibitors,Carbon circularity,ENERGY-CONSERVATION,ACETIC-ACID,FERMENTATION,BACTERIUM,ETHANOL,CO2,Biomass valorization}},
  language     = {{eng}},
  pages        = {{10}},
  title        = {{High-throughput screening of acetogenic strains for growth and metabolite profiles on readily available biomass}},
  url          = {{http://doi.org/10.1016/j.biortech.2024.132026}},
  volume       = {{419}},
  year         = {{2025}},
}
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