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Sebastian Wenk
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Growth of E. coli on formate and methanol via the reductive glycine pathway
S Kim, SN Lindner, S Aslan, O Yishai, S Wenk, K Schann, A Bar-Even
Nature chemical biology 16 (5), 538-545, 2020
2702020
An engineering approach for rewiring microbial metabolism
S Wenk, O Yishai, SN Lindner, A Bar-Even
Methods in enzymology 608, 329-367, 2018
412018
An “energy‐auxotroph” Escherichia coli provides an in vivo platform for assessing NADH regeneration systems
S Wenk, K Schann, H He, V Rainaldi, S Kim, SN Lindner, A Bar‐Even
Biotechnology and bioengineering 117 (11), 3422-3434, 2020
212020
Paving the way for synthetic C1-Metabolism in Pseudomonas putida through the reductive glycine pathway
L Bruinsma, S Wenk, NJ Claassens, VAPM Dos Santos
Metabolic engineering 76, 215-224, 2023
202023
Engineering a new-to-nature cascade for phosphate-dependent formate to formaldehyde conversion in vitro and in vivo
M Nattermann, S Wenk, P Pfister, H He, SH Lee, W Szymanski, ...
Nature Communications 14 (1), 2682, 2023
142023
Engineering the reductive glycine pathway: A promising synthetic metabolism approach for c1-assimilation
NJ Claassens, A Satanowski, VR Bysani, B Dronsella, E Orsi, V Rainaldi, ...
One-Carbon Feedstocks for Sustainable Bioproduction, 299-350, 2022
142022
Synthetic carbon fixation via the autocatalytic serine threonine cycle
S Wenk, V Rainaldi, H He, K Schann, M Bouzon, V Döring, SN Lindner, ...
bioRxiv, 2022.09. 28.509898, 2022
62022
Synthetic metabolism approaches: A valuable resource for systems biology
S Wenk, NJ Claassens, SN Lindner
Current Opinion in Systems Biology 30, 100417, 2022
22022
Design, construction and optimization of formaldehyde growth biosensors with broad application in Biotechnology
K Schann, J Bakker, M Boinot, P Kuschel, H He, M Nattermann, T Erb, ...
bioRxiv, 2023.06. 29.547045, 2023
2023
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Artikelen 1–9