New study highlights #pSEVA plasmids for gene expression in Pseudovibrio brasiliensis, a versatile marine microbe involved in coral health. This tool enables fluorescent protein expression, boosting research on motility & metabolism. Read more 👉 journals.asm.org/doi/10.1128/ae…

🚀 Ready to level up your genetic engineering? #SEVA plasmids offer a user-friendly platform for seamless #SynBio work. Choose from a wide range of modules to build your ideal plasmid. Start building today: 👉 seva-plasmids.com/find-your-plas…

🔄 Collaborate with #SEVA! Share your plasmids and contribute to the growing database of open-source, modular vectors. Together, we can enhance reproducibility and progress in synthetic biology! 💪👉 seva-plasmids.com

👩‍🔬💻 Struggling with incompatible plasmids? #SEVA’s universal vector system guarantees compatibility across a variety of bacteria and yeasts, boosting reproducibility in your #SynBio experiments. Discover more: 👉 seva-plasmids.com

Using modular, high-copy pSEVA351 #plasmids, researchers @ufz_de improved enzyme activity under oxygenic conditions in Synechocystis. They were able to precisely control hydrogenase and maturation gene expression in Synechocystis⚙️ Read more 👉 link.springer.com/article/10.118…

Researchers at Tsinghua University used #SEVAplasmids to implement a lactose-inducible T7-like system in Halomonas bluephagenesis. This system achieves higher yield than IPTG-based systems reducing cost and toxicity 👉sciencedirect.com/science/articl…

🧬 Unlock the potential of synthetic biology with #SEVA plasmids! Our platform provides a vast range of standardised, easy-to-use vectors for all your experimental needs. Get started now: 👉 seva-plasmids.com

AI-designed CRISPR enzymes? Using machine learning and high-throughput engineering, researchers at Harvard Medical School created custom-made Cas9 enzymes with tailored PAM profiles. This offers higher precision and fewer off-target effects than existing tools. 🔗nature.com/articles/s4158…

We use bacteria to create real-time images! British artist Howard Boland from c-lab blurs the boundaries between art and science by using synthetic biology to create unique pieces of living art. 🎨 c-lab.co.uk/projects

🔧 Need a custom plasmid for your #SynBio research? With #SEVA’s modular system, you can quickly assemble the perfect vector by combining origins, markers, and cargo. Simplify your workflow today! 👉 seva-plasmids.com

A modular cloning strategy combining Golden Standard and MoClo enabled modular expression of PHB biosynthesis operons in E. coli, achieving notable polymer yields. A neat piece of work by Juan Nogales and his team. #SEVA plasmids put to great use! 🔗 academic.oup.com/nar/article/51…

🧬 New tools for gene control! A recent publication highlights ligand-responsive condensates for controlled gene expression in mammalian cells. This modular system can target DNA, RNA, and proteins inside the nucleus.⬇️ nature.com/articles/s4158…

🌊 Researchers at Shenzhen Institutes of Advanced Technology have engineered Vibrio natriegens to degrade five organic pollutants simultaneously! This represents a firm step in bioremediation research. 🔗 nature.com/articles/d4158…

New phi15-based expression system in Pseudomonas putida uses #SEVA plasmids for high-yield gene expression. The work by Nikel SEM Group shows how single-copy vectors minimise toxicity, achieve 200×induction, and outperform T7 systems. 👉 nature.com/articles/s4200…

Bring your ideas to life with standardised plasmids. You only have to: ✅Remove restriction sites ✅Combine cargos and markers. ✅Send your construct to #SEVA And see how you contribute to reproducible results and efficient scalability. Try it now👇 seva-plasmids.com

🧬 The language of SEVA expands! The group of Pablo Iván Nikel @pabnik.bsky.social use #SEVAplasmids nomenclature in the design of CIFR—a novel iterative transposon tool for genomic engineering of Gam-negative bacteria 👉 doi.org/10.1016/j.ymbe…

🔥Bye Crabtree! At Hunan University, researchers reprogrammed S. cerevisiae to bypass the Crabtree effect, boosting lactate & 3-hydroxypropionic production by 8-11 times. A major step toward carbon-efficient biomanufacturing 👉nature.com/articles/s4146…

📹Got 2 minutes? Meet us in this short video and see how #SEVA helps you do more effective synthetic biology with standardised plasmids👉 youtu.be/I8gZjXDRQ2I?fe…

🔍Problems with synthetic C1 metabolism? The Pablo Iván Nikel @pabnik.bsky.social group identifies seven major barriers limiting its deployment in microorganisms and proposes specific strategies to overcome each of them. Check out their paper 👉doi.org/10.1093/femsre…

What ways to produce lignans de novo can you think of? Researchers at the Chinese Academy of Sciences made it by mimicking plant metabolism in a consortium of synthetic yeasts. Find out in detail: 👉doi.org/10.1038/s41589…