Our Transcriptomics AI platform decodes the dynamic landscape of RNA expression, revealing how genes are activated or silenced across different conditions, tissues, and time points.
What we analyze:
Bulk RNA-seq and single-cell RNA-seq (scRNA-seq)
Spatial transcriptomics – gene expression mapped directly onto tissue architecture
Isoform discovery and alternative splicing analysis
Differential expression and pathway enrichment
By integrating spatial transcriptomics, we preserve the critical context of where gene expression occurs within a tissue sample—enabling you to visualize tumor microenvironments, cellular neighborhoods, and cell-cell interactions in situ.
With single-cell RNA-seq, we resolve cellular heterogeneity, identify rare cell populations, and capture dynamic transcriptional changes at the highest resolution.
This service is essential for understanding disease mechanisms, identifying novel biomarkers, and discovering therapeutic targets in precision oncology and immunology.
Our Transcriptomics AI platform decodes the dynamic landscape of RNA expression, revealing how genes are activated or silenced across different conditions, tissues, and time points.
What we analyze:
Bulk RNA-seq and single-cell RNA-seq (scRNA-seq)
Spatial transcriptomics – gene expression mapped directly onto tissue architecture
Isoform discovery and alternative splicing analysis
Differential expression and pathway enrichment
By integrating spatial transcriptomics, we preserve the critical context of where gene expression occurs within a tissue sample—enabling you to visualize tumor microenvironments, cellular neighborhoods, and cell-cell interactions in situ.
With single-cell RNA-seq, we resolve cellular heterogeneity, identify rare cell populations, and capture dynamic transcriptional changes at the highest resolution.
This service is essential for understanding disease mechanisms, identifying novel biomarkers, and discovering therapeutic targets in precision oncology and immunology.