Hey #CSSingleCells23 attendees, we're excited to sponsor the coffee break now. Come & meet us!
Can comparing a cell's past and present transcriptome reveal what guides its fate? Join us at Booth T1 - we're eager to hear your thoughts!
📅 10:15-10:45
📍Island/Palm Room
Now out in @NatureComms! 🤩 "Plakoglobin is a mechanoresponsive regulator of naive pluripotency"
I can't express how excited I am to see it published!
I think I now have more questions than answers, but I guess that's good when doing science! 😇
https://t.co/1oEPJt6wpx
📢 Join us at #FluidFM2023!
Don't miss this chance to meet one of our keynote speakers, Orane Guillaume-Gentil, and discover the world of temporal #singlecell#transcriptome recording and #liveseq!
Take a sneak peek into Orane's fascinating work 👉 https://t.co/tyoawcvB95
Happy #thanksgiving!
We are thankful for our customers and partners, but today we are especially thankful for our #team of employees - each one is a vital piece of the puzzle in advancing single-cell research with #FluidFM technology!
Stimulate, inject into, and analyse #single neurons.
#FluidFM technology allows for gentle and controlled #singlecell manipulation, ideal for #neuroscience research.
Learn more here 👉https://t.co/BjqFFkUeII
New @CellRepMethods spotlight on groundbreaking #Liveseq method by @BartDeplancke and @Vorholt1 teams explains how Live-seq uses #FluidFM for collection of picoliter-scale #singlecell biopsies, transforming #scRNAseq into a temporal analysis platform 👉
https://t.co/XqMf1vm5XQ
Mitochondria are hypothesized to be the evolutionary result of endosymbiosis of bacteria with eukaryotic cells. To mimic this, ETH Zurich engineered endosymbiotic growth, using #FluidFM to inject E.coli into mammalian cells.
DOI: 10.1021/acssynbio.2c00292
https://t.co/jMewmiA5IO
Very happy to share our new preprint by @LucianoMarine1 on the role of in-plane and out-of-plane curvatures on epithelial monolayers in 3D microwells https://t.co/VO3sGwnKEY
In case you missed it, #liveseq enables temporal single-cell #transcriptomics and keeps cells alive!
👉🏻 https://t.co/Z5zxXt7eah
#FluidFM OMNIUM is our solution for semi-automated collection of #singlecell biopsies ready for downstream processing and analysis👇
Very happy to be part of such a great #team! And proud to be sharing the groundbreaking #FluidFM technology and it’s impressive applications for #singlecell research 🔬 with the world 🌍!
#WelcomeToTheTeam introducing @I_DiMeglio, our Social Media and Scientific Communication Manager.
#Biologist with a PhD from @UNIGE, she combines her scientific background and writing experience to help us share the power of #FluidFM technology for #singlecell research.
Impressive study on #singlecell adhesion #forces in #epithelial Vero monolayers and awesome technology for automated and high-throughput #force measurements! 👉🏼 https://t.co/N15619IEsu
More awesome work by @nanobiosensorix! They use #FluidFM OMNIUM, our automated system, for #highthroughput measurements of #singlecell adhesion forces in epithelial monolayers. Cool findings about
the #mechanics of #cancer cell invasion too!
Check it out👉https://t.co/VfwAl7oBRX