To single-cell or not to single-cell - what’s in it for me? Single-cell is a great technology increasingly adopted in the fields of genomics, providing unparalleled transcriptomics insight and establishing the basis for novel discovery. Yet, it might not be clear what is at stake and if it is entirely relevant for you as a researcher. We make the decision easier in our new blog post – “To single-cell or not to single-cell’” – so you can plan your next study optimally. Good reading! Read more here: https://lnkd.in/e43kAv-d #singlecell #blog
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Biotech content marketing consultant | Harnessing copywriting to help life science companies share their stories
Back when I conducted omics research, I saw DNA as strings of As, Ts, Gs, and Cs. But recently, I was reminded that DNA can take up complex structures well beyond the strings of letters in our bioinformatics data. At the London Biotechnology Show, I was delighted to interview Hazel Jones of ENHANC3D GENOMICS. In this interview, we covered the beauty of genome structure and her company's latest efforts to make 3D genomics available for all. Check out the interview through the link in the comments section! #genomics #genome #biotech #genomestructure #medicine #interview
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From 55-micron spots to 2.2-micron squares, enabling single-cell analysis. Visium HD is available for ordering. #spatialtranscriptomics 10x Genomics
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Unlocking #murine biology with precision: Explore pathways, receptor-ligand pairs, cell-cell interactions, #biomarkers, and beyond with the 10x Genomics #XeniumPrime5K #Mouse Pan Tissue & Pathways Panel. 🐭✨ An ultra-high-plex assay delivering exceptional data quality.
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Unlock the power of #single-cell #multiomics with the 10x Genomics #Chromium platform: achieve high-quality #transcriptome data, recover more cells, and maximize insights while reducing hidden costs. Discover more with less effort and elevate your research to new heights.
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Saving on costly reagent, working with less precious samples, and still able to get the robust data sets you need - miniaturization is indeed an extremely viable option to achieve these. Discover practical insights in this latest article which examines miniaturization’s role within genomics.
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Unlock #single-cell research with 10x Genomics Genomics Chromium X! 🧬 Partitioning hundreds of thousands of cells in one run, it removes constraints, making million-cell studies routine. Discover the #ChromiumX technology advantage behind single-cell analysis. 🔬
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Keeping up with the pace of change in single cell sequencing is incredibly hard. In the latest Single Cell and Spatial Buyer's Guide we broke down the different kits and instruments into 4 buckets. 🪣Droplet-based methods 🪣Plate-based methods 🪣Micro-, Nano- or Pico well-based methods 🪣Hydrogel-Based Methods I'm sure we've only scratched the surface in our 2024 buyer's guide. Would love to hear what we've missed for the next edition! Anything to add? Let me know in the comments! Front Line Genomics #singlecellsequencing
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DEADLINE EXTENDED to June 30 📣 You can still submit your paper on biobank-scale genomic #data analyses to the GSA Journals—#GENETICS or #G3Journal—for launch in early 2025. While the #biobank model, which has revolutionized human genomics research, is becoming the new standard for data collection, substantial heterogeneity that subsists between biobanks across the world creates both new challenges and opportunities for data analysis. This series will highlight theoretical, analytical, and computational advances addressing these challenges and leveraging these opportunities. Get details on the high-quality papers our Series Editors are looking for, how to submit, and more: https://buff.ly/49U2tDY
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Illumina sequencing revolutionizes the field of genomics with its high-throughput, precise, and efficient approach to DNA sequencing. By leveraging reversible dye terminators, this method allows for the simultaneous sequencing of millions of DNA fragments. Here's how it works: DNA samples are fragmented, and adapters are attached to create a library. These fragments are then amplified on a flow cell, forming clusters. Sequencing occurs as fluorescently labeled nucleotides are incorporated one by one, and a camera captures the emitted light to identify each base. This cycle repeats, generating vast amounts of data that can be analyzed to unlock the secrets of our genetic code. #Genomics #IlluminaSequencing #DNA #Biotech #ScienceExplained 🧬✨
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🔬 Scientist at Harvard University unveils #PlasmidGPT, a Generative AI model trained on 153k engineered plasmid sequences. This tool generates new plasmid designs with characteristics similar to engineered plasmids, yet with low sequence identity to training data. 🎯 PlasmidGPT showcases controlled plasmid generation based on input sequences or specific design constraints. This capability opens new avenues for custom plasmid design in genetic engineering and biotechnology. Quick Read: https://lnkd.in/getkSBEG #Bioinformatics #PlasmidDesign #SyntheticBiology #GeneticEngineering #GenerativeAI #AIinScience #ScienceNews #biotechnology
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