High
resolution
biology
Every cell is different, just as every project is different. We help you fuel your biological breakthroughs by tackling your single-cell RNA sequencing challenges with you. Tailor-made to your project. From cells to data. From start to finish.
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Services
With different (single-cell) platforms available in our portfolio, there is always a solution that suits your needs. Learn about the technologies we offer and how they can accelerate your research.
SORT-Seq
Cost-effective, plate-based single-cell transcriptomics platform.
10x Genomics
High-throughput single-cell gene expression or single-cell immune profiling analysis.
Vasa-seq
Full-length, total RNA single-cell sequencing platform.
bulk RNA sequencing
Don't need single-cells? Try our highly cost-effective bulk RNA seq services.
Visium Spatial Gene Expression
Add tissue context to your transcriptome data
How we work
Science is not a fixed process. We get that. As you go along, plans change and hypotheses along with them. As your trusted partner, we help you with every step in the process, from project design to data analysis and beyond. And when you've completed your project, we'll help you plan the next step.
Design
We'll help you design your first single-cell sequencing project and make sure it matches your biological question and fits your budget. With multiple options and technologies available, we'll always find a match for your project.
Process
Send us your samples and we’ll take care of the rest. We'll process your sample and generate ready-to-analyze data, while applying all the necessary QC steps throughout to ensure optimal quality of the outcome.
Analyze
To help you hit the ground running, we include a preliminary clustering and differential gene expression analysis with all our services. If you need dedicated data analysis support, we’ll send in the bioinformatics cavalry.
Research areas
Single-cell sequencing is used in many different areas of research. Whether your focus is Immunology, Oncology, Neuroscience or any problem in need of a single-cell solution: we can help.
Oncology
Assess tumor heterogeneity. Gain insight into mechanisms driving metastasis or therapy resistance.
Immunology
Characterize immune cell types. Identify antigen specificity. Discover molecular drivers.
Developmental biology
Unravel developmental processes. Discover molecular mechanisms behind development, congenital disease, or regeneration.
Neuroscience
Gain insight into the complexity of the nervous system. Identify molecular mechanisms of neural function, disease and injury.
Our Approach
As single-cell sequencing specialists, we help you with every step in the process. Whether you want to start with a small pilot project or just need routine high-throughput services, we can help. Learn more about our different services.
Consulting
Schedule a call with one of our specialists to discuss your project. Based on your biological question, samples type and budget, we'll help you with designing the best experiment for your project.
Experimental
Send us your samples and we'll take care of the rest. With different technologies available, highly standardized processes, and stringent Quality Control measures in place, we'll produce the best data possible.
Data analysis
To help you get on your way with the data fast, we provide a preliminary data analysis with all of our services. If you need more assistance or require a custom analysis of your data, we can help as well.
Video explanation
This video explains more about how we work.
Success stories
Learn more about the results of our services—from a client perspective.
Blog
Our latest news, updates and other important happenings.
Three reasons to start small with single-cell sequencing
When you first start with single-cell sequencing, it’s often best to start small with a pilot project. Here, we explain why. We updated this blog from March 2021 on 5 December 2022. We rewrote it and included a company comparison as a reason to start with a pilot project. Technical and biological validation If you start a…
What is t-SNE?
One of the most recognizable figures in a single-cell paper explained simply. What is it? What is its purpose? And how does t-SNE work?
Insights into the hypertrophic heart with single-cell RNA sequencing
Heritable gene defects can cause the heart muscles to thicken and bring on hypertrophic cardiomyopathy. How this occurs is not entirely clear. This blog describes how single-cell RNA sequencing helps understand the hypertrophic heart and provide directions for future genetic research. Hypertrophic cardiomyopathy is a heritable condition in which the heart thickens. It occurs in…