The excessive consumption of fossil fuels causes massive emission of CO2, leading to
climate deterioration and environmental pollution. The development of substitutes and …

Biotransformation of lignocellulose-derived synthetic gas (syngas) into acetic acid is a
promising way of creating biochemicals from lignocellulosic waste materials. Acetic acid has …

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 …

Secondary natural products (NPs) are a rich source for drug discovery. However, the low
abundance of NPs makes their extraction from nature inefficient, while chemical synthesis is …

Anaerobic digestion (AD), a pivotal technology for organic waste reduction and biogas
production, has recently gained notable attention for its role in CO 2 bioconversion. As …

Acetogenic bacteria (acetogens) are a class of microorganisms with conserved Wood-
Ljungdahl pathway that can utilize CO and CO2/H2 as carbon source for autotrophic growth …

The bioconversion of syngas using (homo) acetogens as biocatalysts shows promise as a
viable option due to its higher selectivity and milder reaction conditions compared to …

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 …

Anaerobic, acetogenic bacteria are well known for their ability to convert various one-carbon
compounds, promising feedstocks for a future, sustainable biotechnology, to products such …

Microbial cell factories offer an eco-friendly alternative for transforming raw materials into
commercially valuable products because of their reduced carbon impact compared to …