Understanding skin development is crucial, as embryonic programs may underlie wound healing throughout life. Work from Drs. Ohsang Kwon and Jong-il Kim at Seoul National University took advantage of Xenium In Situ to identify specific cell trajectories, spatially validate driver genes & provide a spatial atlas for skin development. We’d like to congratulate the first author, Dr. Hanjae Lee & everyone involved in this groundbreaking study, which culminated in a gorgeous cover spot in the latest issue of Journal of Investigative Dermatology. Read the paper: https://bit.ly/45i3Jze
10x Genomics
Biotechnology Research
Pleasanton, California 211,121 followers
Powering researchers’ insights with innovative single cell, spatial biology, & in situ tools. 🧬🔬
About us
Cells are the basic unit of life. They power everything we do, and unlocking their secrets is the key to advancing our knowledge of every facet of biology, from development to disease. Our single cell, spatial, and in situ tools enable researchers to answer pressing questions about cells and their functional contributions to oncology, immunology, neuroscience, and much more—as evidenced by more than 5,500 publications citing our technology. We are dedicated to building the best products, delivering the best customer experience, and creating the best team to fuel new scientific discovery, no matter how challenging. And we won’t stop until all of the cells’ secrets are revealed.
- Website
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http://10xgenomics.com
External link for 10x Genomics
- Industry
- Biotechnology Research
- Company size
- 1,001-5,000 employees
- Headquarters
- Pleasanton, California
- Type
- Public Company
- Founded
- 2012
Locations
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Primary
6230 Stoneridge Mall Rd
Pleasanton, California 94588, US
Employees at 10x Genomics
Updates
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We’re so excited to see your future insights!
Professor of Cancer Immunotherapy & Director, John van Geest Cancer Research Centre at Nottingham Trent University
Very excited to have received formal training on our brand new Xenium platform! We look forward to unlocking more and more spatial biology! Many thanks to Jayakumar Vadakekolathu Narayanan, David Boocock, Silvia Ottaviani, Michał P., Sandeep Suresh M. (Nottingham Trent University) and Monika Dabrowska (10X Genomics)! Stay tuned for future developments in this area. Nottingham Trent University 10x Genomics
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Congratulations to the winners of the Xenium 5K grant program! We’re looking forward to seeing the tissues they explore with Xenium Prime 5K #singlecellspatial.
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Scientists from the University of Tokyo, University of the Ryukyus, and Daiichi Sankyo Co. used #singlecell RNA-seq and ATAC-seq to define the mechanism of action for a novel epigenetic cancer therapy, valemetostat, in a clinical trial for adult T-cell lymphoma. Explore their findings in our latest blog: https://bit.ly/4cPuC07
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Read this paper from Manoj K. Bhasin and his team at Emory University School of Medicine to see a first-of-its-kind application of #Visium in canine superficial vein samples that revealed possible therapeutic targets to mitigate graft failure in heart bypass surgery: https://lnkd.in/ga6y-f2k
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Wish you could quickly analyze your #singlecell data? Or easily share these large datasets with collaborators? Good news! We just launched our free web-based app 10x Genomics Cloud Analysis globally! Sign up now or explore a guided walkthrough: https://lnkd.in/gHPbecYK
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Ants may feel like unwanted housemates, but they’re actually pretty cool when you give them a chance. This #singlecell RNA-seq study revealed the specific cell type and gene expression programs driving the divergent physiology and behavior of foragers and soldiers in one ant species. Learn more in our blog!
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🚀 Exciting research alert from APAC! 🧬 Using #Xenium, researchers in South Korea have validated single cell RNA sequencing datasets, shedding light on the embryonic development stages in mouse skin. By mapping the spatial distribution of key marker genes, they discovered unique molecular distinctions between upper and lower embryonic fibroblasts, confirmed the diversity in embryonic dermal fibroblasts, and identified major differentiation pathways in the perinatal dermis. This study even pinpointed potential key driver genes for each trajectory. 🔬 Why it matters: This comprehensive cellular transcriptomic atlas is a vital reference for future skin development and regeneration research. 📄 Read the full publication here: https://lnkd.in/gKaKmdXs
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Welcome to Club Xenium! 🎉
Finally, the 10x Genomics Xenium Analyser is all installed and ready to run! It was an unexpected but happy surprise to receive the grant last year. Being closely involved in the process from the beginning was a great experience for my personal and professional development. Thank you Rebecca Mitchell and Monika Dabrowska, for the training. Special thanks to Noel Harris-Brown for getting the machine installed and running smoothly, and also to the team in the School of Clinical Dentistry. The greatest thanks and gratitude to Prof Dan Lambert for involving me in this incredible journey! 👨🔬 I'm excited to see the next steps and anticipate lots of cutting-edge research output at The University of Sheffield. Please contact the email below for more information on facility access: spatial-imaging@sheffield.ac.uk
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Amazing discoveries happen when new technologies allow talented researchers to tackle the questions whose answers were previously inaccessible. For example, the D’Souza lab took advantage of the single cell spatial resolution of Xenium In Situ to understand the complex spatial regulation of cleft palate formation. Their findings could fuel the discovery of potential in utero and early postnatal therapeutic targets for correcting cleft palate anomalies, which affects ~1 in every 700 live births annually. Read our news release to learn more about the insights they uncovered: https://lnkd.in/gAJnQAAY
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