Next-generation feedstocks methanol and ethylene glycol and their potential in industrial biotechnology
N Wagner, L Wen, CJR Frazão, T Walther - Biotechnology Advances, 2023 - Elsevier
Microbial fermentation processes are expected to play an important role in reducing
dependence on fossil-based raw materials for the production of everyday chemicals. In …
dependence on fossil-based raw materials for the production of everyday chemicals. In …
[HTML][HTML] Advances in Komagataella phaffii Engineering for the Production of Renewable Chemicals and Proteins
CVGC Carneiro, LA Serra, TF Pacheco, LMM Ferreira… - Fermentation, 2022 - mdpi.com
The need for a more sustainable society has prompted the development of bio-based
processes to produce fuels, chemicals, and materials in substitution for fossil-based ones. In …
processes to produce fuels, chemicals, and materials in substitution for fossil-based ones. In …
[HTML][HTML] Engineering a synthetic energy-efficient formaldehyde assimilation cycle in Escherichia coli
T Wu, PA Gómez-Coronado, A Kubis… - Nature …, 2023 - nature.com
Abstract One-carbon (C1) substrates, such as methanol or formate, are attractive feedstocks
for circular bioeconomy. These substrates are typically converted into formaldehyde, serving …
for circular bioeconomy. These substrates are typically converted into formaldehyde, serving …
Multilayer Engineering of an Escherichia coli-Based Biotransformation System to Exclusively Produce Glycolic Acid from Formaldehyde
HJ Jo, H Yu, H Cheon, JH Kim, GY Kim… - ACS Sustainable …, 2023 - ACS Publications
A whole-cell biocatalysis was investigated for the selective synthesis of the industrially
relevant C2 chemicals (eg, glycolic acid (3)) from formaldehyde (1). Escherichia coli cells …
relevant C2 chemicals (eg, glycolic acid (3)) from formaldehyde (1). Escherichia coli cells …