AGBT2026

AGBT2026 PaintScape poster image P106 mini

AGBT 2026-Poster 106 | In situ single cell spatial multiomic profiling of 3D genome organization in fresh frozen (FF) colorectal carcinoma tissue in spatially resolved tissue microenvironments

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PaintScape™ in situ single cell spatial multiomic profiling of 3D genome organization in fresh frozen (FF) colorectal carcinoma tissue

AGBT 2026-Poster 106 | In situ single cell spatial multiomic profiling of 3D genome organization in fresh frozen (FF) colorectal carcinoma tissue in spatially resolved tissue microenvironments Read More »

AGBT2026 PaintScape poster image P126 mini

AGBT 2026-Poster 126 | PaintScape™ enables tissue based unique multiomic protocol for direct in situ visualization of single cell spatial 3D genome organization of fresh frozen glioblastoma cells in tumor microenvironments

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The PaintScape™ multiomic tissue protocol enabled direct, in situ visualization of genome organization in FF human glioblastoma tumor microenvironment cells

AGBT 2026-Poster 126 | PaintScape™ enables tissue based unique multiomic protocol for direct in situ visualization of single cell spatial 3D genome organization of fresh frozen glioblastoma cells in tumor microenvironments Read More »

AGBT2026 PaintScape poster image P420 mini

AGBT 2026-Poster 420 | Integrated 3D genome, transcriptome and proteomic assays — simultaneously observing genome architecture and transcriptional activity at single-cell resolution

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PaintScape integrated 3D genome, transcriptome, and proteomic assays simultaneously observed genome architecture and transcriptional activity at single-cell resolution

AGBT 2026-Poster 420 | Integrated 3D genome, transcriptome and proteomic assays — simultaneously observing genome architecture and transcriptional activity at single-cell resolution Read More »

AGBT2026 PaintScape poster image P451 mini

AGBT 2026-Poster 451 | In situ 3D spatial characterization of genome architecture and whole transcriptome imaging in single cells with the PaintScape™ system and CosMx® SMI on ER+ breast cancer cells

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A combined approach using PaintScape and CosMx revealed how disruptions in genome organization drive disease mechanisms in ER⁺ breast cancer by linking altered chromatin topology to dysregulated expression of key oncogenic pathway genes

AGBT 2026-Poster 451 | In situ 3D spatial characterization of genome architecture and whole transcriptome imaging in single cells with the PaintScape™ system and CosMx® SMI on ER+ breast cancer cells Read More »

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