Bas van Woudenberg
@woudenbe.bsky.social
| PhD candidate | Synthetic Biology | Metabolic engineering | C1 Metabolism |
Reposted by Bas van Woudenberg
Please repost!
Postdoc in adaptive laboratory evolution and C1 synthetic metabolism!
Location: DTU Biosustain
🦠🧬🔬
Starting in 01/2026!
Fell free to reach out if you have questions!
efzu.fa.em2.oraclecloud.com/hcmUI/Candid...
Postdoc in adaptive laboratory evolution and C1 synthetic metabolism!
Location: DTU Biosustain
🦠🧬🔬
Starting in 01/2026!
Fell free to reach out if you have questions!
efzu.fa.em2.oraclecloud.com/hcmUI/Candid...
efzu.fa.em2.oraclecloud.com
September 12, 2025 at 11:43 AM
Please repost!
Postdoc in adaptive laboratory evolution and C1 synthetic metabolism!
Location: DTU Biosustain
🦠🧬🔬
Starting in 01/2026!
Fell free to reach out if you have questions!
efzu.fa.em2.oraclecloud.com/hcmUI/Candid...
Postdoc in adaptive laboratory evolution and C1 synthetic metabolism!
Location: DTU Biosustain
🦠🧬🔬
Starting in 01/2026!
Fell free to reach out if you have questions!
efzu.fa.em2.oraclecloud.com/hcmUI/Candid...
Reposted by Bas van Woudenberg
Aromatic acid metabolism in Methylobacterium extorquens reveals interplay between methylotrophic and heterotrophic pathways www.biorxiv.org/content/10.1... #jcampubs
March 24, 2025 at 1:02 PM
Aromatic acid metabolism in Methylobacterium extorquens reveals interplay between methylotrophic and heterotrophic pathways www.biorxiv.org/content/10.1... #jcampubs
Reposted by Bas van Woudenberg
Interested in Sustainability, Metabolic Engineering and Evolution?
Check out how we convinced E. coli to grow on the CO2-derived substrate formic acid using the synthetic Serine Threonine Cycle! ♻️🌱🦠
OPEN ACCESS publication to be found here:
🚨 doi.org/10.1016/j.ym... 🚨
#MEvoSky #microsky
(1/🧵)
Check out how we convinced E. coli to grow on the CO2-derived substrate formic acid using the synthetic Serine Threonine Cycle! ♻️🌱🦠
OPEN ACCESS publication to be found here:
🚨 doi.org/10.1016/j.ym... 🚨
#MEvoSky #microsky
(1/🧵)
March 6, 2025 at 10:10 AM
Interested in Sustainability, Metabolic Engineering and Evolution?
Check out how we convinced E. coli to grow on the CO2-derived substrate formic acid using the synthetic Serine Threonine Cycle! ♻️🌱🦠
OPEN ACCESS publication to be found here:
🚨 doi.org/10.1016/j.ym... 🚨
#MEvoSky #microsky
(1/🧵)
Check out how we convinced E. coli to grow on the CO2-derived substrate formic acid using the synthetic Serine Threonine Cycle! ♻️🌱🦠
OPEN ACCESS publication to be found here:
🚨 doi.org/10.1016/j.ym... 🚨
#MEvoSky #microsky
(1/🧵)
Reposted by Bas van Woudenberg
Beyond the pink: uncovering the secrets of pink pigmented facultative methylotrophs link.springer.com/article/10.1... #jcampubs
Beyond the pink: uncovering the secrets of pink pigmented facultative methylotrophs - Archives of Microbiology
Pink Pigmented Facultative Methylotrophs (PPFMs) belong to a diverse group of methylotrophic bacteria predominantly in the genus Methylobacterium, and are known for their beneficial interactions with ...
link.springer.com
March 6, 2025 at 2:05 PM
Beyond the pink: uncovering the secrets of pink pigmented facultative methylotrophs link.springer.com/article/10.1... #jcampubs
Reposted by Bas van Woudenberg
Reposted by Bas van Woudenberg
REVIEW: Design and regulation of engineered bacteria for environmental release
by Chris Voigt & co
#microsky
www.nature.com/articles/s41...
by Chris Voigt & co
#microsky
www.nature.com/articles/s41...
Design and regulation of engineered bacteria for environmental release - Nature Microbiology
Chemla et al. review the release of bacteria into the environment and propose engineering strategies to help improve performance and reduce risk.
www.nature.com
February 4, 2025 at 4:06 PM
REVIEW: Design and regulation of engineered bacteria for environmental release
by Chris Voigt & co
#microsky
www.nature.com/articles/s41...
by Chris Voigt & co
#microsky
www.nature.com/articles/s41...
Reposted by Bas van Woudenberg
Methanol transfer supports metabolic syntrophy between bacteria and archaea www.nature.com/articles/s41... #jcampubs
Methanol transfer supports metabolic syntrophy between bacteria and archaea - Nature
Zhaonella formicivorans produces methanol, for a novel syntrophic interaction, without requiring methylated compounds as an input.
www.nature.com
January 30, 2025 at 2:30 PM
Methanol transfer supports metabolic syntrophy between bacteria and archaea www.nature.com/articles/s41... #jcampubs
Reposted by Bas van Woudenberg
Eukaryotic promoters are complex, making synthetic promoter design challenging. In a recent paper, Masahiro Tominaga’s team decoded key design rules and demonstrated the potential of their inducible yeast promoters for biologic production. Learn more 👇
Designing strong inducible synthetic promoters in yeasts - Nature Communications
Inducible promoters that control gene expression in response to small molecules are essential in synthetic biology. Here, the authors describe a simple and reliable approach for constructing strongly…
buff.ly
January 24, 2025 at 9:45 PM
Eukaryotic promoters are complex, making synthetic promoter design challenging. In a recent paper, Masahiro Tominaga’s team decoded key design rules and demonstrated the potential of their inducible yeast promoters for biologic production. Learn more 👇
Reposted by Bas van Woudenberg
Led astray by 16S rRNA: phylogenomics reaffirms the monophyly of Methylobacterium and lack of support for Methylorubrum as a genus academic.oup.com/ismej/advanc... #jcampubs
January 21, 2025 at 2:35 PM
Led astray by 16S rRNA: phylogenomics reaffirms the monophyly of Methylobacterium and lack of support for Methylorubrum as a genus academic.oup.com/ismej/advanc... #jcampubs
Reposted by Bas van Woudenberg
🚨 Out now with free access!
A set of programmable bifunctional biosensors for real-time monitoring of glucose uptake rates and dynamic dual control of glucose uptake and central metabolism. #ChemSky #ChemBio
Link: www.nature.com/articles/s44...
A set of programmable bifunctional biosensors for real-time monitoring of glucose uptake rates and dynamic dual control of glucose uptake and central metabolism. #ChemSky #ChemBio
Link: www.nature.com/articles/s44...
Monitoring and dynamically controlling glucose uptake rate and central metabolism - Nature Chemical Engineering
Glucose uptake is the initial step in cellular metabolism, and its uptake rate directly determines the overall metabolic flow. Here the authors develop a set of programmable bifunctional biosensors fo...
www.nature.com
January 17, 2025 at 5:36 PM
🚨 Out now with free access!
A set of programmable bifunctional biosensors for real-time monitoring of glucose uptake rates and dynamic dual control of glucose uptake and central metabolism. #ChemSky #ChemBio
Link: www.nature.com/articles/s44...
A set of programmable bifunctional biosensors for real-time monitoring of glucose uptake rates and dynamic dual control of glucose uptake and central metabolism. #ChemSky #ChemBio
Link: www.nature.com/articles/s44...
Reposted by Bas van Woudenberg
