C1-based biomanufacturing: Advances, challenges and perspectives
X Lv, W Yu, C Zhang, P Ning, J Li, Y Liu, G Du… - Bioresource …, 2023 - Elsevier
Abstract One-carbon (C1) compounds have emerged as a key research focus due to the
growth of metabolic engineering and synthetic biology as affordable and sustainable …
growth of metabolic engineering and synthetic biology as affordable and sustainable …
Adaptive laboratory evolution of microorganisms: Methodology and application for bioproduction
T Hirasawa, T Maeda - Microorganisms, 2022 - mdpi.com
Adaptive laboratory evolution (ALE) is a useful experimental methodology for fundamental
scientific research and industrial applications to create microbial cell factories. By using ALE …
scientific research and industrial applications to create microbial cell factories. By using ALE …
Recent progress in the engineering of C1-utilizing microbes
Highlights•C1 substrates are low-cost feedstocks supplied in abundance from waste
sources.•Microbial utilization of C1 substrates provides a sustainable conversion …
sources.•Microbial utilization of C1 substrates provides a sustainable conversion …
Recycling of minerals with acetate separation in biological syngas fermentation with an electrodialysis system
The current study proposes integrating syngas fermentation and electrodialysis (ED)
systems to reduce operating costs of fermentation process by reusing nutrients required for …
systems to reduce operating costs of fermentation process by reusing nutrients required for …
[HTML][HTML] Minireview: Engineering evolution to reconfigure phenotypic traits in microbes for biotechnological applications
Adaptive laboratory evolution (ALE) has long been used as the tool of choice for microbial
engineering applications, ranging from the production of commodity chemicals to the …
engineering applications, ranging from the production of commodity chemicals to the …
[HTML][HTML] Autotrophic adaptive laboratory evolution of the acetogen Clostridium autoethanogenum delivers the gas-fermenting strain LAbrini with superior growth …
Microbes able to convert gaseous one-carbon (C1) waste feedstocks are increasingly
important to transition to the sustainable production of renewable chemicals and fuels …
important to transition to the sustainable production of renewable chemicals and fuels …
[HTML][HTML] Perspectives for Using CO2 as a Feedstock for Biomanufacturing of Fuels and Chemicals
Microbial cell factories offer an eco-friendly alternative for transforming raw materials into
commercially valuable products because of their reduced carbon impact compared to …
commercially valuable products because of their reduced carbon impact compared to …
Strategies in engineering sustainable biochemical synthesis through microbial systems
Y Song, KLJ Prather - Current Opinion in Chemical Biology, 2024 - Elsevier
Growing environmental concerns and the urgency to address climate change have
increased demand for the development of sustainable alternatives to fossil-derived fuels and …
increased demand for the development of sustainable alternatives to fossil-derived fuels and …
Improving carbon monoxide tolerance of Cupriavidus necator H16 through adaptive laboratory evolution
C Wickham-Smith, N Malys, K Winzer - Frontiers in Bioengineering …, 2023 - frontiersin.org
Background: The toxic gas carbon monoxide (CO) is abundantly present in synthesis gas
(syngas) and certain industrial waste gases that can serve as feedstocks for the biological …
(syngas) and certain industrial waste gases that can serve as feedstocks for the biological …
Harnessing acetogenic bacteria for one-carbon valorization toward sustainable chemical production
The pressing climate change issues have intensified the need for a rapid transition towards
a bio-based circular carbon economy. Harnessing acetogenic bacteria as biocatalysts to …
a bio-based circular carbon economy. Harnessing acetogenic bacteria as biocatalysts to …