#metabolicengineering search results
Comprehensive review explores C. glutamicum metabolic engineering for diverse biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories Details: doi.org/10.1016/j.bide…
Delighted to join #MetabolicEngineering as Associate Editor w/Sang Yup Lee, Jay Keasling, I. Borodina, C. Maranas & C. Wittmann. I'll handle submissions in #SyntheticMetabolism, #Pseudomonas, #SynBio, new-to-nature #bioproduction & #EnvironmentalBiotechnology!
Corynebacterium glutamicum engineering advances for diverse biochemical production! #MetabolicEngineering Details: doi.org/10.1016/j.bide…
Corynebacterium glutamicum's metabolic engineering expands substrates, boosts amino acid & terpenoid yields. Challenges & future paths explored. #MetabolicEngineering #Biomanufacturing Details: doi.org/10.1016/j.bide…
Comprehensive review on C. glutamicum metabolic engineering for diverse substrates & biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories #Corynebacterium Details: doi.org/10.1016/j.bide…
Meet our new PhD student Kelley! #synbio #metabolicengineering #precisionfermentation #chitooligosaccharides
We’re still on a #MetabolicEngineering Conference 15 (#ME15) high! One of ME15’s highlights were the poster sessions! Aside from sharing research, these sessions also allowed attendees to mingle and strike a pose 📸 Catch SynCTI members in action in the photos below!
💥 New Special Issue open for submission! 🔗 lnkd.in/g7NzY5pV #syntheticbiology #metabolicengineering #enzymeengineering #bioproducts #biomanufacturing #bioprocessengineering #chemicalengineering
GAME15 reveals key role in SGA/STS biosynthesis, offering pest resistance & biotech potential. #GAMEGenes #MetabolicEngineering @OxfordJournals Details: doi.org/10.1093/hr/uha…
Characterized plant promoters in N. benthamiana and BY2 cells enhance metabolic engineering, achieving varied betalain production. #PlantSyntheticBiology #MetabolicEngineering Details:spj.science.org/doi/10.34133/2…
1/ Delighted to share a new preprint from the lab, the result of a lot of hard work by Melissa Poma during her PhD: biorxiv.org/content/10.110… #engineeringbiology #syntheticbiology #metabolicengineering #zymomonasmobilis #biotechnology #biomanufacturing
Only 3 more days til the Metabolic Engineering Conference 15 (#ME15)! Here’s a sneak peek 👀 💡Plenary talks from @mbelmbel99, @MichaelKoepke80 & more 🗣️Technical discussions from the global #metabolicengineering community 🤝 Lively networking events See you at ME15 soon! 👋
Having a great time sharing my work on synthetic biomolecular condensates as engineered metabolons at @ChEnected #ME15 #MetabolicEngineering conference! Come by poster 137 this afternoon to chat more about my work with @javalosLAB @brangwynnelab
Teamwork makes the dream work! On the yearly teambuilding of our MEMO research group, we had the opportunity to taste some delicious MEMO-pie 😋🤓 Brains, stomach and team spirit fueled to conduct more amazing research! #metabolicengineering #logo #synbio #geneticcircuitry
Countdown to #SEED2023 begins! Harnessing the power of C. reinhardtii & C. merolae, we’re pursuing sustainable biotechnology. Stay tuned for the reveal of our research in LA! #SyntheticBiology #MetabolicEngineering #SustainableScience #algae
Multidimensional strategies significantly enhance β-carotene production in yeast. #MetabolicEngineering #Carotenoids Details:spj.science.org/doi/10.34133/b…
E. coli can flexibly repurpose metabolic pathways, like the methylglyoxal and serine shunt routes, to bypass canonical glycolysis deficiencies. #MetabolicEngineering #SyntheticBiology #ecoli Details:spj.science.org/doi/10.34133/2…
Congratulations to Prof Guo-Qiang Chen for being the first Chinese scientist to win the International #MetabolicEngineering Society Award! Prof Chen has made outstanding contributions to the development of Next Generation #IndustrialBiotechnology (NGIB) based on #extremophiles.
Snapshots of the global #metabolicengineering community 🥰 The Metabolic Engineering Conference 15 (#ME15) was filled with reunions and introductions alike 🤝 From photobooths to poster sessions, these photos show that metabolic engineers know how to have a good time 😎
Comprehensive review explores C. glutamicum metabolic engineering for diverse biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories Details: doi.org/10.1016/j.bide…
1/ Delighted to share a new preprint from the lab, the result of a lot of hard work by Melissa Poma during her PhD: biorxiv.org/content/10.110… #engineeringbiology #syntheticbiology #metabolicengineering #zymomonasmobilis #biotechnology #biomanufacturing
💥 New Special Issue open for submission! 🔗 lnkd.in/g7NzY5pV #syntheticbiology #metabolicengineering #enzymeengineering #bioproducts #biomanufacturing #bioprocessengineering #chemicalengineering
Comprehensive review on C. glutamicum metabolic engineering for diverse substrates & biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories #Corynebacterium Details: doi.org/10.1016/j.bide…
Corynebacterium glutamicum's metabolic engineering expands substrates, boosts amino acid & terpenoid yields. Challenges & future paths explored. #MetabolicEngineering #Biomanufacturing Details: doi.org/10.1016/j.bide…
Metabolic engineering paves the way for greener bioproduction! 🌿 🔗 brnw.ch/21wWTdf #MetabolicEngineering #GreenBiotech #SyntheticBiology
C. glutamicum metabolic engineering advances for diverse biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories Details: doi.org/10.1016/j.bide…
GAME15 reveals key role in SGA/STS biosynthesis, offering pest resistance & biotech potential. #GAMEGenes #MetabolicEngineering @OxfordJournals Details: doi.org/10.1093/hr/uha…
Meet Paulo Silva! A Doctoral Researcher working on precision fermentation and metabolic engineering of yeasts and the fungus Ashbya gossypii to produce high-value metabolites🚀 Welcome to the team! #MetabolicEngineering #PrecisionFermentation #Biotechnology #IndustrialBiotech
🧬 New review highlights cutting-edge cloning systems in Bacillus for metabolic engineering and recombinant production. 🔗 doi.org/10.3390/fermen… #SyntheticBiology #MetabolicEngineering #Bacillus #Fermentation
Yarrowia lipolytica boosts terpene synthesis via synthetic biology! #Biofuels #MetabolicEngineering Details: doi.org/10.34133/bdr.0…
Yarrowia lipolytica boosts terpene synthesis via synthetic biology! #Biofuels #MetabolicEngineering Details: doi.org/10.34133/bdr.0…
Delighted to join #MetabolicEngineering as Associate Editor w/Sang Yup Lee, Jay Keasling, I. Borodina, C. Maranas & C. Wittmann. I'll handle submissions in #SyntheticMetabolism, #Pseudomonas, #SynBio, new-to-nature #bioproduction & #EnvironmentalBiotechnology!
Corynebacterium glutamicum engineering advances for diverse biochemical production! #MetabolicEngineering Details: doi.org/10.1016/j.bide…
🛢️🧬 Harnessing microbes for a cleaner future! This review highlights metabolic engineering of petroleum hydrocarbon catabolic pathways as a strategy to boost bioremediation of crude-oil-contaminated environments. 🔗 doi.org/10.3390/fermen… #SyntheticBiology #MetabolicEngineering
✨Calling for Papers✨ 📖New Advances in #MetabolicEngineering and Synthetic Biology of #Yeasts 🧑🔬Guest Editor: Dr. Justyna Ruchała ⏰Submission Deadline: 30 August 2025 🔗Submit here: mdpi.com/journal/ijms/s… #callforpapers #Biotechnology
Implementing synthetic serine cycles in #Pseudomonas putida unlock methanol assimilation in our favorite bug with carbon conservation, led by @OscarPuiggene · #SynBio #MetabolicEngineering #Methanol @TrendsinBiotech sciencedirect.com/science/articl…
Corynebacterium glutamicum: Engineering powerhouse for amino acids & more! #MetabolicEngineering #CellFactories Detais: doi.org/10.1016/j.bide…
Lossen転位、ついに細胞内で 毒性が高くcell-free系が前提だったLossen転位を、E. coli内で実現。PET分解物からパラセタモールを92%収率で合成。合成生物学×グリーンケミストリーの好例。 #SyntheticBiology #MetabolicEngineering #PlasticUpcycling #GreenChemistry
Plastic waste can be converted into painkillers - using E. coli go.nature.com/4ekQO40
Corynebacterium glutamicum engineering advances for diverse biochemical production! #MetabolicEngineering Details: doi.org/10.1016/j.bide…
Yarrowia lipolytica boosts terpene synthesis via synthetic biology! #Biofuels #MetabolicEngineering Details: doi.org/10.34133/bdr.0…
🛢️🧬 Harnessing microbes for a cleaner future! This review highlights metabolic engineering of petroleum hydrocarbon catabolic pathways as a strategy to boost bioremediation of crude-oil-contaminated environments. 🔗 doi.org/10.3390/fermen… #SyntheticBiology #MetabolicEngineering
Delighted to join #MetabolicEngineering as Associate Editor w/Sang Yup Lee, Jay Keasling, I. Borodina, C. Maranas & C. Wittmann. I'll handle submissions in #SyntheticMetabolism, #Pseudomonas, #SynBio, new-to-nature #bioproduction & #EnvironmentalBiotechnology!
Corynebacterium glutamicum's metabolic engineering expands substrates, boosts amino acid & terpenoid yields. Challenges & future paths explored. #MetabolicEngineering #Biomanufacturing Details: doi.org/10.1016/j.bide…
C. glutamicum metabolic engineering advances for diverse biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories Details: doi.org/10.1016/j.bide…
Comprehensive review explores C. glutamicum metabolic engineering for diverse biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories Details: doi.org/10.1016/j.bide…
Meet Paulo Silva! A Doctoral Researcher working on precision fermentation and metabolic engineering of yeasts and the fungus Ashbya gossypii to produce high-value metabolites🚀 Welcome to the team! #MetabolicEngineering #PrecisionFermentation #Biotechnology #IndustrialBiotech
Characterized plant promoters in N. benthamiana and BY2 cells enhance metabolic engineering, achieving varied betalain production. #PlantSyntheticBiology #MetabolicEngineering Details:spj.science.org/doi/10.34133/2…
Comprehensive review on C. glutamicum metabolic engineering for diverse substrates & biochemicals, challenges & future directions. #MetabolicEngineering #CellFactories #Corynebacterium Details: doi.org/10.1016/j.bide…
New research reveals E. coli's metabolic flexibility by identifying and engineering alternative glycolytic routes via methylglyoxal and the serine shunt, enhancing our understanding of metabolic pathway repurposing. #MetabolicEngineering #SyntheticBiology…
💥 New Special Issue open for submission! 🔗 lnkd.in/g7NzY5pV #syntheticbiology #metabolicengineering #enzymeengineering #bioproducts #biomanufacturing #bioprocessengineering #chemicalengineering
Only 3 more days til the Metabolic Engineering Conference 15 (#ME15)! Here’s a sneak peek 👀 💡Plenary talks from @mbelmbel99, @MichaelKoepke80 & more 🗣️Technical discussions from the global #metabolicengineering community 🤝 Lively networking events See you at ME15 soon! 👋
🧬 New review highlights cutting-edge cloning systems in Bacillus for metabolic engineering and recombinant production. 🔗 doi.org/10.3390/fermen… #SyntheticBiology #MetabolicEngineering #Bacillus #Fermentation
Multidimensional strategies significantly enhance β-carotene production in yeast. #MetabolicEngineering #Carotenoids Details:spj.science.org/doi/10.34133/b…
Meet our new PhD student Kelley! #synbio #metabolicengineering #precisionfermentation #chitooligosaccharides
We’re still on a #MetabolicEngineering Conference 15 (#ME15) high! One of ME15’s highlights were the poster sessions! Aside from sharing research, these sessions also allowed attendees to mingle and strike a pose 📸 Catch SynCTI members in action in the photos below!
E. coli can flexibly repurpose metabolic pathways, like the methylglyoxal and serine shunt routes, to bypass canonical glycolysis deficiencies. #MetabolicEngineering #SyntheticBiology #ecoli Details:spj.science.org/doi/10.34133/2…
Microbial upcycling of lignin transforms it into valuable chemicals, aiding carbon neutrality. #LigninValorization #Biocatalysis #MetabolicEngineering #Sustainability Details:spj.science.org/doi/10.34133/b…
Artemisinin's metabolic engineering advances & prospects in A. annua #Artemisinin #MetabolicEngineering #PlantBiotechnology @OxfordJournals Details:doi.org/10.1093/hr/uha…
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