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Biological carbon capture from biogas streams: Insights into Cupriavidus necator autotrophic growth and transcriptional profile

Rebecca Serna-García, Maria Silvia Morlino, Luca Bucci, Filippo Savio, Lorenzo Favaro, Tomas Morosinotto, A. Seco, A. Bouzas, Stefano Campanaro, Laura Treu

2024Bioresource Technology17 citationsDOIOpen Access PDF

Abstract

Recycling carbon-rich wastes into high-value platform chemicals through biological processes provides a sustainable alternative to petrochemicals. Cupriavidus necator, known for converting carbon dioxide (CO2) into polyhydroxyalkanoates (PHA) was studied for the first time using biogas streams as the sole carbon source. The bacterium efficiently consumed biogenic CO2 from raw biogas with methane at high concentrations (50%) proving non-toxic. Continuous addition of H2 and O2 enabled growth trends comparable to glucose-based heterotrophic growth. Transcriptomic analysis revealed CO2-adaptated cultures exhibited upregulation of hydrogenases and Calvin cycle enzymes, as well as genes related to electron transport, nutrient uptake, and glyoxylate cycle. Non-adapted samples displayed activation of stress response mechanisms, suggesting potential lags in large-scale processes. These findings showcase the setting of growth parameters for a pioneering biological biogas upgrading strategy, emphasizing the importance of inoculum adaptation for autotrophic growth and providing potential targets for genetic engineering to push PHA yields in future applications.

Topics & Concepts

Cupriavidus necatorBiogasAutotrophPolyhydroxyalkanoatesFermentationRaw materialIsocitrate lyaseFood scienceChemistryBiologyPulp and paper industryBiotechnologyGlyoxylate cycleBacteriaBiochemistryEnzymeEcologyGeneticsEngineeringbiodegradable polymer synthesis and propertiesCarbon dioxide utilization in catalysisMicrobial metabolism and enzyme function
Biological carbon capture from biogas streams: Insights into Cupriavidus necator autotrophic growth and transcriptional profile | Litcius