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10x Genomics

10x Genomics delivers powerful, reliable tools that fuel scientific discoveries and drive exponential progress to master biology and to advance human health. Cited in more than 7,000 research papers, their innovative single-cell, spatial and in situ technologies enable discoveries across oncology, immunology, neuroscience and more. 10x Genomics' talented, dedicated science professionals have a distinguished record of creating innovative instruments, reagents and software that analyze biological systems at a resolution that matches the complexity of biology.

Latest 10x Genomics Content

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Visium CytAssist: The Spatial Technology That Makes You The Expert

Whole transcriptome discovery in the tissue context: Gain a deeper understanding of cellular organization with high-throughput profiling of more than 18,000 genes across whole tissue sections.
Tissue Sample
Poster

Spatially Profile Human Immune Cells Within FFPE Tissue Samples

Despite the valuable transcriptomic information provided by probe-based spatial assays, detecting immune cell infiltration can pose challenges
PacBio Revio
Product News

Eremid® Genomic Services Expands Long-Read HiFi Sequencing Capabilities With PacBio Revio

Eremid® Genomic Services, LLC (“Eremid”) announces a significant expansion of its in-house sequencing capabilities with the installation of PacBio’s latest HiFi sequencing platform, the Revio.
Single Cell
Poster

Whole Transcriptome Expression of FFPE Samples

Formaldehyde fixed & paraffin-embedded (FFPE) tissue blocks are one of the most commonly used and archived sample types. However, some preservation approaches can result in the degradation of RNA and hinder transcriptome profiling .
Antigen
App Note / Case Study

Fast Track Antigen-Specific B- and T-Cell Discovery

This application note demonstrates how Single Cell Immune Profiling and Barcode Enabled Antigen Mapping (BEAM) can be used to profile thousands of hPBMCs from a single donor.

Xenium <i>In Situ</i>: High-Performance <i>In Situ</i> From the Single-Cell Leader content piece image
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Xenium In Situ: High-Performance In Situ From the Single-Cell Leader

The Xenium difference: Revealing the previously unseen

Xenium In Situ combines the power of single molecule RNA detection with powerful optics, data acquisition, and decoding technology to rapidly detect 100s–1,000s of RNA targets at subcellular resolution across entire fresh frozen or FFPE tissue sections. This powerful combination enables cell typing and localization in functional biological context while also providing new insights into cellular communication.
Alternative Transcript Isoform Detection With Single Cell and Spatial Resolution content piece image
App Note / Case Study

Alternative Transcript Isoform Detection With Single Cell and Spatial Resolution

The ability to study transcript isoforms in detail could have a significant impact on our understanding of health and disease. However, most commonly, bulk sequencing is the selected method that only provides an average of the transcripts expressed across your sample of cells.
A cluster of cancer cells, shown in blue, purple and pink.
News

Technology Locates Gene Activity and Proteins Across Tissues

A novel method of recording gene activity patterns and the presence of key proteins in cells across tissues could enable the creation of data-rich organ "maps".
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Chromium Single-Cell Gene Expression Flex

Boost your discovery power and uncover critical cellular insights with Chromium Single Cell Gene Expression Flex. This advanced technology lets you take single cell RNA-seq further than ever before. With Flex, you can:

- Profile fresh or fixed samples, including FFPE tissues, with our most sensitive single cell chemistry

- Simplify experimental logistics with the ability to store and transport samples without losing data quality

- Batch and multiplex samples to minimize handling, improve efficiency, and reduce per-sample costs by up to 75%
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Xenium In Situ

Ductal carcinoma in situ (DCIS), cancer cell growth that starts in the milk ducts, is the most common form of breast cancer. However, why some DCIS progress to invasive carcinoma but others remain innocuous is still unclear. In a recent study, three groundbreaking technologies—Chromium Single Cell, Visium Spatial, and Xenium In Situ—were used to achieve a deeper understanding into the biology of a single, breast cancer patient-derived, FFPE tissue block.
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