🧑🔧⭕Let’s dissect a SEVA plasmid!
Built on a modular architecture, our plasmids make it easier to identify key vector elements.
🧬Origin of replication: more then 15 types
🔆Cargo region: such as cloning or CRSIPR.
💊Antibiotic marker: choose it from out of 10 possibilities.
👉 shorturl.at/04ZtK
Better vector design can make all the difference 🔬
Researchers examined how plasmid vectors are optimized for gene editing and genetic engineering. They focused on
🔧function
📈efficiency
🔀and versatility in #biotech applications
Just how SEVA likes it.👉 Read their insights here: doi.org/qz47
Designing plasmids shouldn’t be blocking your experiment 🧬
⭕SEVA plasmids provide a shared framework for vector construction, helping researchers work with greater flexibility and #reproducibility in biotechnology and microbial engineering.
Explore our website👉
🔬New model systems are helping reshape drug discovery. Nowadays there are more relevant ways to study disease biology, and improve early-stage screening. TheScientist has reviewed the latest advances in this new guide about how to use in vitro models 👉https://shorturl.at/DXbIg
Methanol as feedstock? Maybe not for us but… 🧪
Resarchers built new biology toolkit to help microbes grow using methanol, making them easier to engineer and more stable.
👉Read how they managed to do it:
👩🔬 The #SEVA collection keeps growing thanks to community contributions.
Add your constructs to our open plasmid repository and help improve reproducibility in #SynBio.
✨ Check the guidelines and join our mission 👉
🔬Tired of replicating that experiment and getting different results? SEVA simplifies #SynBio with a universal vector system! All SEVA #plasmids follow a standardised format. Reproducibility starts here! ⚙️👉
🧬🖨️ Boosting 3D-printed tissues! MIT engineers have developed a compact magnetic mixer that keeps bioinks uniformly mixed during printing. This makes engineered tissues more reproducible and scalable – just like SEVA likes it! Check the whole story👉
🔭New plasmids on the horizon! Scientists from @bfrde.bsky.social detected megaplasmids in enteropathogenic Vibrio spp. These have 80% unclassified genes! ⭕What’s more, the megaplasmids suggest a non-Vibrio origin 👉
💪An easy way to gain glucose! Scientists have developed a plasmid-free and inducer-free Escherichia coli to produce glucose. This may be an interesting way of reducing expenses💸. Read how they could do it👉
🛠️✨We are the Standard European Vector Architecture (SEVA), a web-based resource in which you can choose the #plasmid that you need for your research. Our goal is to make #reproducibility, a reality. Check them out 👉
🔬SEVA format involves a set of rules to unify the scientific community.
These are visible in our #plasmid nomenclature. By order:
🦠 Antibiotic resistance marker
⭕ Origin of replication
📦 Cargo module
🛠️ Optional gadgets
Learn how it works here 👉https://shorturl.at/V5ff1
Using photosynthesis as a work chain ☀️ Researchers aimed to engineer cells that can capture light and use it to produce valuable compounds. 🦠They successfully reprogrammed E. coli to perform efficient photobiosynthesis of several products! 👉
⭕❌What would happen if organisms with and without plasmids compete? I will give you a hint: this plasmid-bearing population can produce an allelopathic toxin that is lethal to its plasmid-free competitor, and yet, who wins?👉
⭕✨Standard, tailor-made, and send directly to your door food free. Too good can be true. Take a look at our website and check our vectors free of charge 👉
🦠✨This bacterium can act as a “sickness traffic light”. @ctropini.bsky.social and her group from the University of British Columbia have engineered a system in which cells that normally produce GFP reduce their fluorescence under stress conditions.
Discover the full story 👉https://shorturl.at/f9bpu
❓🦠With N, what is the main cause of foodborne illness? Non-typhoidal Salmonella! In it, plasmids enhance adaptability, combining resistance and virulence. Microbiota-targeted or CRISPR-based tools can provide opportunities to disrupt plasmid dissemination. 👉Check how:
Science anywhere? Absolutely yes! Science anyhow? No please! The #SEVA database of vector plasmids aims to improve Science replication and create a world in which high-quality science is available no matter where. Join us! 👉 seva-plasmids.com
The @berkeleylab.lbl.gov presented the Global Soil Plasmidome Resource. A comprehensive dataset of 98,728 plasmid sequences amassed from 6860 terrestrial microbial communities and isolates. Check them out!👉 www.nature.com/articles/s41...
Replicable science requires shared standards. The #SEVA platform provides modular, standardized plasmid vectors that improve reproducibility and design. Explore the SEVA collection and order validated plasmids for free 👉 seva-plasmids.com/find-your-pl...
🌍🧬 Plasmids are spreading antibiotic resistance across European urban water systems.
A multi-omics survey found tens of thousands of plasmids carrying resistance genes, many previously unknown. It highlights how wastewater networks share and mobilize ARGs across borders 👉https://doi.org/qn2v
🧬📊 Read this comparative review of plasmid vectors used in gene editing and genetic engineering. It highlights how designing elements such as replication origin, host range, and CRISPR compatibility affect multiple features. How important it is to make the right selection? 👉
If you are a researcher working with plasmids, this is for you!👩🏾🔬🔬Standard, effective and ✨free✨, what else can you ask for? Take a look at our website and find your #SEVAplasmid ready to use 👉
🧬🔧 New tools keep emerging for mycobacterial protein production. This plasmid-based system enables translationally gated secretion in Mycobacterium, combining riboswitch control with highly efficient extracellular export. A new layer of regulation unlocked👉
A free, worldwide and standardized tool for researchers 🧑🔬🛠️ It seems too good to be true, but it exists! ⭕Our #SEVA plasmids accomplish all those characteristics to help scientific research succeed. Use them yourself! 👉
🩸🩹You may have heard about using glue to stop bleedings. Maybe it is not the best strategy in the world, but scientists have engineered bacteria to function as therapeutic ‘living glues’ inside your body! 😳. Check how they do it 👉
⭕ Plasmids of the group lncP-1 replicate and usually persist in many bacteria, but nothing in nature comes without exception. The lncP-1𝛃 plasmid pBP136 became extinct in E.coli at the lab. Scientists from the @uidaho.bsky.social suspect which gene is guilty. 👉
🧬Plasmids are the workhorses of molecular biology, but are we really choosing them wisely? @vdlorenzo.bsky.social and Esteban Martínez-García revisit what really defines plasmid performance and why modular standards like #SEVA matter for the future of #SynBio 👉https://doi.org/10.1111/1751-7915.70273
Have you already found your pSEVA plasmid match for your #SynBio project? You’re just one step away! 🚀
📤 Visit our website and choose the gateway to your next experiment—free, open, and ready to use 👉https://seva-plasmids.com/contact/
