Leveraging substrate flexibility and product selectivity of acetogens in two‐stage systems for chemical production
L Ricci, A Seifert, S Bernacchi, D Fino… - Microbial …, 2023 - Wiley Online Library
Carbon dioxide (CO2) stands out as sustainable feedstock for developing a circular carbon
economy whose energy supply could be obtained by boosting the production of clean …
economy whose energy supply could be obtained by boosting the production of clean …
Engineering acetogenic bacteria for efficient one-carbon utilization
C1 gases, including carbon dioxide (CO2) and carbon monoxide (CO), are major
contributors to climate crisis. Numerous studies have been conducted to fix and recycle C1 …
contributors to climate crisis. Numerous studies have been conducted to fix and recycle C1 …
Stepping on the gas to a circular economy: accelerating development of carbon-negative chemical production from gas fermentation
N Fackler, BD Heijstra, BJ Rasor… - Annual review of …, 2021 - annualreviews.org
Owing to rising levels of greenhouse gases in our atmosphere and oceans, climate change
poses significant environmental, economic, and social challenges globally. Technologies …
poses significant environmental, economic, and social challenges globally. Technologies …
The potential of sequential fermentations in converting C1 substrates to higher-value products
C Stark, S Münßinger, F Rosenau… - Frontiers in …, 2022 - frontiersin.org
Today production of (bulk) chemicals and fuels almost exclusively relies on petroleum-
based sources, which are connected to greenhouse gas release, fueling climate change …
based sources, which are connected to greenhouse gas release, fueling climate change …
Genetic and metabolic engineering challenges of C1-gas fermenting acetogenic chassis organisms
Unabated mining and utilisation of petroleum and petroleum resources and their conversion
to essential fuels and chemicals have drastic environmental consequences, contributing to …
to essential fuels and chemicals have drastic environmental consequences, contributing to …
Advances in systems metabolic engineering of autotrophic carbon oxide-fixing biocatalysts towards a circular economy
High levels of anthropogenic CO 2 emissions are driving the warming of global climate. If
this pattern of increasing emissions does not change, it will cause further climate change …
this pattern of increasing emissions does not change, it will cause further climate change …
Exploiting the potential of gas fermentation
The use of gas fermentation for production of chemicals and fuels with lower environmental
impact is a technology that is gaining increasing attention. Over 38 Gt of CO 2 is annually …
impact is a technology that is gaining increasing attention. Over 38 Gt of CO 2 is annually …
Acetogenic fermentation from oxygen containing waste gas
T Mohr, A Infantes, L Biebinger, P De Maayer… - … in Bioengineering and …, 2019 - frontiersin.org
The microbial production of bulk chemicals from waste gas is becoming a pertinent
alternative to industrial strategies that rely on fossil fuels as substrate. Acetogens can use …
alternative to industrial strategies that rely on fossil fuels as substrate. Acetogens can use …
[HTML][HTML] A quantitative metabolic analysis reveals Acetobacterium woodii as a flexible and robust host for formate-based bioproduction
CS Neuendorf, GA Vignolle, C Derntl, T Tomin… - Metabolic …, 2021 - Elsevier
Cheap and renewable feedstocks such as the one-carbon substrate formate are emerging
for sustainable production in a growing chemical industry. We investigated the acetogen …
for sustainable production in a growing chemical industry. We investigated the acetogen …
[PDF][PDF] Gas fermentation–a biotechnological solution for today's challenges
P Dürre - Microbial Biotechnology, 2017 - cyberleninka.org
Costs for biotechnological processes in general are largely dictated by substrate prices.
Thus, especially production of bulk chemicals from sugar or molasses suffers economically …
Thus, especially production of bulk chemicals from sugar or molasses suffers economically …