Results 91 to 100 of about 1,758 (174)
Acetogenic Fermentation From Oxygen Containing Waste Gas [PDF]
, 2020 The microbial production of bulk chemicals from waste gas is becoming a pertinent alternative to industrial strategies that rely on fossil fuels as substrate.
Biebinger, Lars +4 more
core +2 more sources
Methanol and Carbon Monoxide Metabolism of the Thermophile Moorella caeni
Environmental Microbiology, Volume 27, Issue 4, April 2025.An omics approach was used to elucidate the C1 metabolism of Moorella caeni DSM 21394 T, which exhibits acetogenic metabolism on methanol and hydrogenogenic metabolism on CO. Our results suggest that respiratory Complex I serves as the primary respiratory enzyme in methanol‐grown cells.
Nicolas A. Vecchini Santaella +2 more
wiley +1 more source
Medium chain fatty acids (MCFA) production through anaerobic fermentation using Clostridium kluyveri: Effect of ethanol and acetate [PDF]
, 2018 Medium-chain fatty acids (MCFA) are saturated monocarboxylic acids and can be used as antimicrobials, corrosion inhibitors, precursors in biodiesel, and bioplastic production.
CHANG Young-Cheol +2 more
core +2 more sources
Acetate Shock Loads Enhance CO Uptake Rates of Anaerobic Microbiomes
Microbial Biotechnology, Volume 17, Issue 12, December 2024.Pyrolysis of lignocellulosic biomass yields syngas and an acetate‐rich wastewater. This study examined high acetate levels during syngas co‐fermentation by anaerobic microbiomes at different pHs and temperatures. Microbiomes converted syngas at 64 g/L acetate and pH 5.5. Acetate supplementation increased CO conversion rates and altered product spectrum
Alberto Robazza +4 more
wiley +1 more source
Integrated bioprocess for conversion of gaseous substrates to liquids [PDF]
, 2015 In the quest for inexpensive feedstocks for the cost-effective production of liquid fuels, we have examined gaseous substrates that could be made available at low cost and sufficiently large scale for industrial fuel production.
Chakraborty, Sagar +6 more
core +1 more source
Synthetic biology on acetogenic bacteria for highly efficient conversion of c1 gases to biochemicals [PDF]
, 2020 © 2020 by the authors. Licensee MDPI, Basel, Switzerland. Synthesis gas, which is mainly produced from fossil fuels or biomass gasification, consists of C1 gases such as carbon monoxide, carbon dioxide, and methane as well as hydrogen.
Bae, Jiyun +8 more
core +3 more sources
Enrichment of syngas-converting communities from a multi-orifice baffled bioreactor [PDF]
, 2017 The substitution of natural gas by renewable biomethane is an interesting option to reduce global carbon footprint. Syngas fermentation has potential in this context, as a diverse range of low-biodegradable materials that can be used.
Alves, J. I. +4 more
core +1 more source
ChemElectroChem, Volume 11, Issue 20, October 16, 2024.Oxic microbial electrosynthesis (oMES) enables the conversion of renewable electricity and oxic industrial CO2‐streams into biomass by cultivating aerobic, autotrophic hydrogen‐oxidizing bacteria. This article presents the most promising candidates for oMES, discusses their biomass productivity and energy efficiency, and outlines research gaps to bring
Johannes Eberhard Reiner +2 more
wiley +1 more source
Microbial carbon use efficiency predicted from genome-scale metabolic models [PDF]
, 2019 Respiration by soil bacteria and fungi is one of the largest fluxes of carbon (C) from the land surface. Although this flux is a direct product of microbial metabolism, controls over metabolism and their responses to global change are a major uncertainty
Bhatnagar, Jennifer M. +3 more
core +1 more source
Integration of proteomic data with genome‐scale metabolic models: A methodological overview
Protein Science, Volume 33, Issue 10, October 2024.Abstract The integration of proteomics data with constraint‐based reconstruction and analysis (COBRA) models plays a pivotal role in understanding the relationship between genotype and phenotype and bridges the gap between genome‐level phenomena and functional adaptations.
Farid Zare, Ronan M. T. Fleming
wiley +1 more source