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Friedrich Fauser
@f_fauser
Genome Engineer | Early R&D Scientist @SangamoTx | Postdoc @JonikasLab, @CarnegiePlants & @PrincetonMolBio | PhD @PuchtaLab, @KITKarlsruhe | Tweets are my own
Fremont, CA
Joined September 2014
49 Following
133 Followers
99 Posts
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We are thrilled to reveal @SangamoTx‘s Modular Integrase (MINT) platform at #ASGCT2024. Our MINT platform is a protein-guided genome editing method designed to facilitate targeted integration (TI) of synthetic DNA into chromosomal sites. PDF: https://t.co/zXcGGr3VJo [1/10]
![f_fauser's tweet photo. We are thrilled to reveal @SangamoTx‘s Modular Integrase (MINT) platform at #ASGCT2024. Our MINT platform is a protein-guided genome editing method designed to facilitate targeted integration (TI) of synthetic DNA into chromosomal sites. PDF: https://t.co/zXcGGr3VJo [1/10] https://t.co/N20Tezcy2a](https://pbs.twimg.com/media/GNI0PewaUAEdUdf.png)
🧬🚀 We’ve made substantial progress in development of our modular integrase, or MINT, platform- a gene editing method that we believe will enable large-scale genome engineering. Our updated manuscript which showcases these advances is available on bioRxiv https://t.co/C0ARgcMXB1
Thrilled to share this update on bioRxiv:
https://t.co/Zzh5LBbBIu
>10x activity, T cell data & genome-wide specificity evaluation!
We are thrilled to reveal @SangamoTx‘s Modular Integrase (MINT) platform at #ASGCT2024. Our MINT platform is a protein-guided genome editing method designed to facilitate targeted integration (TI) of synthetic DNA into chromosomal sites. PDF: https://t.co/zXcGGr3VJo [1/10]
Who to follow
Martin Jonikas
@JonikasLab
@mjonikas.bsky.social
I'm a scientist studying enhanced photosynthetic CO2 assimilation!
Opinions are my own and do not reflect those of my employer.
Tingting Xiang
@Xiang_lab
scientist; bioengineering professor @UCRiverside; host-microbe interactions; coral-algal symbiosis; dinoflagellate
Silvia Ramundo
@ramundo_silvia
Cell biology, genetics, biotechnology, algae & other green organisms; I study (and often torture) chloroplasts; group leader @GMIVienna @ViennaBiocenter.
We are excited to share 71,700 new #Chlamy mutants from the CLiP2 collection pre-publication! Nearly-saturating genome coverage.
Please note: new background strain, mating type, and antibiotic resistance.
Read: https://t.co/t0SUtH26rP
Search and order: https://t.co/4dGxCXXrmt
Excited to share our latest preprint!
Biogenesis, engineering and function of membranes in the CO2-fixing pyrenoid
https://t.co/NAxQmBXSky
Thanks @FremontFire for putting this Niles Canyon fire out quickly and @FremontPD for patrolling the neighborhood :)
@pituvilarnadal @NatureComms @Dinnenylab @JonikasLab Congrats Pep! Excited to see what comes next :)
After a mere blink in the cosmos -3 years as a preprint- our paper has found its home in @NatureComms . Thanks to all coauthors, the long supporting journey @Dinnenylab, and collaborators @JonikasLab and Michael Sussman. Oh, and by the way, I'm job hunting!!!
One of our lead scientists, @wraithnot is presenting @FASEBorg about our exciting Modular Integrase (MINT) platform, a new approach to 🎯 integration of large 🧬 constructs into precise locations within the human genome. #genomicmedicine #MINTplatform
Systematic Development of Reprogrammed Modular Integrases Enables Precise Genomic Integration of Large DNA Sequences https://t.co/SzeyxM68mL
Our #MINTplatform does not use #CRISPR, #ZincFinger or #TALeffector to 🎯 DNA. Instead, we directly reprogram Bxb1 integrase to go where we want in the human genome. The details are in our @bioRxiv paper: https://t.co/AxcZ5PYkHz
We are thrilled to announce the publication of our manuscript detailing the development of our Modular Integrase (MINT) platform #MINTplatform is now live on @bioRxiv! https://t.co/macyMhbRNy @f_fauser @gdavis624 @arangundy @wraithnot
Systematic Development of Reprogrammed Modular Integrases Enables Precise Genomic Integration of Large DNA Sequences https://t.co/xjdxx7JWEh - our paper describing reprogrammed serine integrases is now on BioRxiv!
Cool new preprint from Sangamo, engineering BxbI integrase to target native sites in the genome. Who needs landing pads now?
MINT platform reprograms Bxb1 integrase for precise genome editing. Achieving up to 35% efficiency, it integrates kilobase-sized constructs into specific genomic sites, including human TRAC and AAVS1 loci.🧬👨🔬✂️#GenomeEditing #SyntheticBiology #GeneTherapy https://t.co/9RjHc5LCmD
Now on bioRxiv:
Systematic Development of Reprogrammed Modular Integrases Enables Precise Genomic Integration of Large DNA Sequences https://t.co/4TYHfeiOCK
Original Thread: https://t.co/XcZAufBhcp
We are thrilled to reveal @SangamoTx‘s Modular Integrase (MINT) platform at #ASGCT2024. Our MINT platform is a protein-guided genome editing method designed to facilitate targeted integration (TI) of synthetic DNA into chromosomal sites. PDF: https://t.co/zXcGGr3VJo [1/10]
@SArangundy And here is the bioRxiv link:
https://t.co/XI5X11JyMf
Thanks to everyone who showed up at the #ASGCT2024 poster session. Didn't expect this to turn into ~5h of conversations :)
Please find Greg Davis (@gdavis264), Sebastian Arangundy (@Arangundy), or myself (Poster 1680, Friday) during #ASGCT2024 to talk science; or meet up with Jeff Miller (@wraithnot) during FASEB in Rome! Thanks to everyone who contributed to this project – this was fun 😊 [9/10]
Handle correction: @SArangundy
@mchilberg FASEB:
https://t.co/R7MkykVwtS
Today at #ASGCT2024 is the platform presentation for our next-generation Modular Integrase (MINT) technology, engineered to enable large-scale genome editing. Learn how the MINT platform utilizes Bxb1, to integrate large sequences of 🧬 into the genome. https://t.co/Djj9h3pP9H
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