An incomplete understanding of stem cell biology, and the challenge of controlling complex, long-term processes prevent stem cell discoveries. Single-cell biology provides deeper, more precise insights into the drivers of pluripotency and self-renewal, as well as how to effectively manipulate and transform cells.
At ISSCR 2015, we showed how our integrated single-cell genomics, transcriptomics, epigenetics and proteomics, give you access to a complete suite of single-cell biology applications. Our simple and complete solutions enable you to optimize stem cell culture conditions, identify the genes, signatures and characteristics of stem cell state and discover new cell populations to further explore. Now you can define and manipulate cell models to develop cell-based therapies with ease and precision.
Scroll on to find out what Fluidigm brought to ISSCR 2015 and discover what makes every stem cell unique from the inside out.
Technology Workshop Videos
Bridging the gaps between cell biology, genomics and single-cell analysis
Join us to learn how our complete, end-to-end workflow solutions reveal the synergy between cell biology and molecular biology. Register to receive a workshop reminder email.
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Candia Brown
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The Future of Single-Cell Biology
Watch the Recording |
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Nianzhen Li, PhD
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A Microfluidic Combinatorial Approach to Cell Differentiation and Reprogramming
Watch the Recording |
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Casey Gifford, PhD
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Dissecting Cardiomyocyte Differentiation Using Single-Cell RNA Seq: Finding the Yellow Brick Road
Watch the Recording |
Single-Cell Biology Workflows
Our complete single-cell application workflows give you the high-quality data you need to examine stem cells from every angle.
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Callisto™ |
| Rapidly develop new reprogramming and differentiation protocols to derive new cell models. | |
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C1 mRNA Seq HT |
| Identify novel cell populations and their unique transcriptome signatures. | |
C1™ + Script Hub™ |
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| Expand the menu of single-cell genomic and epigenetic applications into your repertoire. | |
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Helios™ |
| Characterize stem cells by their immunophenotype and monitor their functional state. | |
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Biomark™ HD |
| Analyze the regulatory pathways involved in stem cell state and fate |
Fluidigm ISSCR 2015 Posters
Poster |
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A novel multifactorial approach for human iPS cell differentiation and reprogramming using an automated cell culture system. |
Tingxia Guo, Fluidigm |
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Cell line authentication using SNP Trace. A high-throughput, cost effective platform for fingerprinting, identifying contamination, and determining cell line origin. |
Marian Shaw, Fluidigm |
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Correlating single-cell transcript and protein expression during reprogramming of human somatic cells to induced pluripotent stem (iPS) cells. |
Frederick Kolling, UCONN & Mark Konrad, Fluidigm |
See what you missed
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Find out how we're revolutionizing in vitro modeling with the Callisto System in our press release.