Single-Cell Sequencing
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About 10x Genomics Single-Cell Solutions
10x Genomics’ Chromium X platform uses advanced microfluidics to partition thousands of individual cells or nuclei into nanoliter-scale droplets, where each cell is barcoded with a unique molecular identifier (UMI). Within each droplet, cellular RNA, chromatin, or other molecular targets are captured and prepared for high-throughput sequencing. This allows researchers to profile gene expression, chromatin accessibility, immune repertoires, or multiomic relationships at single-cell resolution—revealing previously hidden layers of cellular diversity and function.
Admera Health is a 10x Genomics Certified Service Provider, offering comprehensive single-cell assays using the Chromium platform. From gene expression to chromatin accessibility and immune repertoire profiling, our certified workflows enable detailed characterization of cellular heterogeneity across human, mouse, and other species—whether fresh, frozen, fixed, or FFPE.
Flexible Single Cell Solutions for Your Research Needs
3’ Gene Expression
Enables high-throughput single-cell transcriptome profiling by capturing & sequencing mRNA at the 3′ end, providing sensitive & unbiased quantification of gene activity.
5’ Gene Expression
Profiles transcripts from the 5′ end at single-cell resolution, with additional capability for TCR and BCR sequencing to study immune clonality and diversity.
Gene Expression Flex
Supports single-cell transcriptome analysis from fresh, frozen, or FFPE samples, expanding accessibility to challenging or archived tissues.
scATAC-seq
Maps chromatin accessibility at single-cell resolution to reveal regulatory landscapes and epigenetic mechanisms underlying cell states and identity.
Multiome ATAC + GEX
Simultaneously measures gene expression and chromatin accessibility within the same cell, enabling direct integration of transcriptional and regulatory information.
Single-Cell CRISPR
Combines CRISPR perturbations with single-cell transcriptomics to systematically study gene function, regulatory networks, and cellular responses.
Key Features & Highlights
Up to 80% cell recovery & challenging cell type detection
High Sensitivity
Project Flexibility & Reproducibility
Lower sequencing depths available & high-quality single-cell libraries
Sample-Type Compatible
Works well with fresh frozen, fixed, or FFPE samples
Gain multiomic readouts from the same cell, enabling more seamless insights into cellular heterogeneity
Multiomic Capabilities
See a Demo Report
Maximize your project’s potential with advanced analysis solutions. Our team of expert bioinformaticians curate pipelines tailored to your project’s experimental design.
We’re 10x Genomics Certified!
Admera Health is a 10x Certified Service Provider (CSP). This means our team has met rigorous quality control standards and are fully trained on a variety of 10x Genomics Chromium-X powered single-cell solutions. We are committed to upholding the highest quality standards for your single-cell project, renewing our yearly recertification. Explore certified services in our lab:
3’ Gene Expression
5’ Gene Expression
Gene Expression Flex (for fixed samples)
Immune Profiling
ATAC-seq
CRISPR
Multiome ATAC + Gene Expression
Learn more about 10x Genomics 3’ Gene Expression and Multiome technologies with additional resources.
For more information on getting started with your next single-cell project, inquire with a member of our team.
Diving Deeper into Single-Cell Methods From 10x Genomics
More Spatial & Single-Cell Solutions
STOmics Stereo-seq
Achieve high-resolution spatial analysis with single-cell resolution utilizing DNA nanoball technology for precise, species-compatible insights
10x Genomics
Admera Health is a Certified Service provider for CytAssist-powered Visium HD technology. Explore spatial transcriptomics with precision
Parse Biosciences
We’re a Certified Service Provider for Parse Biosciences Evercode WT solutions. Discover highly-multiplexed, scalable single-cell options for your research
Takara Bio
Full-length transcript coverage and high-resolution insights into gene expression and isoform diversity for RNA & DNA single-cell studies