Reveal Cellular Choreography,
See Biology in Motion
Reveal, perturb, and understand the dynamics of cells, cell states and cellular interactions - at scale, across any cell type. On your terms.
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Biology Unfolds as a Continuous Choreography
Cells adapt, signal, interact, and transition through states. To understand that complexity, we need more than identity, and more than fragmented snapshots. We need insight into change and interactions: how cells evolve, relate, and respond.
That means tracking morphology and function across time and conditions and linking these dynamics to transcriptomics - at the resolution and scale where biology happens. Cellanome makes this possible by combining fluorescent, live-cell imaging and single-cell transcriptomics with proprietary CellCage™ technology, enabling researchers to observe how individual cells or functional ensembles shift, interact, and respond over time.
The result is structured, multimodal data with dynamic context - ready to enable discovery, accelerate therapeutic development, and power computable models of biology in action.
Designed to reveal biological complexity.
Structured to advance biological insight.
At the heart of the Cellanome Platform are CellCage™ enclosures: biocompatible, tunable micro-environments that preserve native morphology and support culturing, time-lapse imaging, perturbation, and sequencing – all within a unified workflow. Together these capabilities support high-resolution, large-scale studies, from single cells to complex ensembles.
The Cellanome Platform is a fully integrated system that combines instrumentation, consumables and software to simplify complex assays and capture dynamic biology over time.
- Any cell, any assay: Biocompatible enclosures support adherent, suspension, and fragile cell types while preserving native morphology
- Deeper insight over time: Multimodal, longitudinal observation of tens of thousands of cells, individually or in ensembles
- Connect genotype to function: Link morphology, function and transcriptomics, from the same live cells, with the ability to capture RNA from every CellCage enclosure
- Flexible formats at scale: Analyze single cells, ensembles, or spheroids to reveal heterogeneity and coordination
- Built for modeling and discovery: Relational, longitudinal data with lower noise than fragmented workflows
Translate Cellular Choreography into Biological Insights
Cellanome enables scientists to capture the intricacies of cells and their interactions, with the scale, resolution and context necessary to unravel biological complexity. This generates richer, more relevant data to advance our understanding of health and disease, accelerate the development of more effective therapies, and support AI-ready modeling across immunology, oncology, neurobiology, aging and more.
Neurobiology
- Link morphology, function and transcriptomics to study and build models of neurodevelopment, degeneration, and repair
- Resolve heterogeneity in individual neurons and networked ensembles, including neurospheres, while preserving native morphology
- Track synapse formation, neurite outgrowth, and other dynamic transitions over time
- Generate longitudinal, multimodal data to support functional modeling of neurobiological processes
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Immunology
- Link heterogeneity in immune function - including cytotoxicity, phagocytosis, activation - to gene expression and perturbation
- Track immune-target interactions over time, even in adherent or fragile populations
- Resolve immune states and transitions by linking dynamic function and transcriptomics in individual cells or functional ensembles
- Build data foundations for modeling immune coordination and response
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Aging & Metabolic Disease
- Resolve gradual state changes and precisely characterize senescence by linking morphology, function and transcriptome from individual cells, at scale
- Profile glia, macrophages, senescent cells and other fragile or adherent cells
- Link coordinated shifts in phenotype and gene programs from the same live cells or ensembles
- Capture time-resolved signatures to inform models of cellular aging and metabolic decline
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Oncology
- Unambiguously link edits or treatments to function, morphology, and gene expression – in adherent cells or interacting ensembles
- Track tumor-immune dynamics over time, including cytotoxicity and persistence
- Resolve MoAs without bulk averaging, across diverse co-culture setups
- Generate structured, high-resolution datasets to inform predictive modeling of therapeutic response
Board & CEO
Major Investor Partners
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News & Events
Gordon Research Conference: Functional Genomics of Human Brain Development and Disease | April 6-11, 2025
Keystone Symposia - Single Cell Biology: Unique Cells to Tissue Ecosystems | May 11-14, 2025
89th Cold Spring Harbor Laboratory Symposium on Quantitative Biology Senescence & Aging | May 28-June 1, 2025
CYTO 2025 | May 31 – June 4, 2025
Keystone Symposia - Neural-Immune Interactions: A Systems-Wide Perspective on Whole Organism Physiology | June 8-11, 2025
Single Cell Genomics 2025 | September 15-17, 2025
Shape the Future of
Scientific Discovery
At Cellanome, our mission to advance biological understanding drives everything we do, and we're looking for passionate individuals ready to make their mark on the future of biology.
Get in Touch
Whether you're designing new experiments, building new models, or exploring new biological questions, we’d love to connect. Discover how Cellanome can help you unlock the dynamics of discovery.