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Bruker Spatial Biology

Best-in-class solutions for your spatial biology needs

Bringing together cutting-edge platforms from NanoString and Canopy Biosciences, now you can explore tissues like never before with the most comprehensive suite of technologies for gene expression, spatial transcriptomics and spatial proteomics.

Latest Multimedia

Bruker 2024 eBook cover: 'Drug Development with Gene Expression You Can Count On' with DNA helix graphic
eBook

Drug Development With Gene Expression You Can Count On

From discovery to clinical trials, understanding gene activity is key to drug development. Reliable gene expression tools drive informed decisions and boost the success of investigational drug studies at every stage
Poster on EpicIF technology enabling fast, multiplexed immunofluorescence with stable epitopes and efficient signal removal
Poster

Introducing EpicIF Technology for Gentle Fluorescence Signal Removal

Learn how EpicIF (Enhanced photobleaching in cyclic Immunofluorescence) technology enables the gentle removal of photostable fluorescence signals to enable ultra-high plex immunofluorescence imaging
3d illustration of proteins in different colours
App Note / Case Study

High-Plex Protein Detection To Support Therapy Development

This app note highlights a multiplex immunofluorescence imaging solution for targeted spatial proteomics that provides several advantages over other spatial proteomic and transcriptomic technologies for biomarker studies.
TMi10 image
Video

Exploring Spatial Biology

This episode provides an overview of spatial biology and what applications scientists can pursue by exploring this area.
Floating cells on a dark blue background.
Listicle

Five Applications of Single-Cell Analysis Technologies

Download this listicle to discover recent examples of how single-cell analysis methods are driving forward research into cancer, aging, and drug discovery and development.
Precise Morphological Analysis of Tumors With Whole Transcriptomics content piece image
Poster

Precise Morphological Analysis of Tumors With Whole Transcriptomics

Researchers require spatial information and high-plex gene expression data to understand how cells interact with tumors. However, molecular subtyping within a tumor type requires additional stratification at the tissue level to facilitate meaningful subsequent gene expression analysis.
Precise Spatial Multiplexing of Immune Cell Diversity in Clinical Tumor Samples content piece image
Poster

Precise Spatial Multiplexing of Immune Cell Diversity in Clinical Tumor Samples

Highly multiplexed spatial biomarker analysis has demonstrated the potential to advance our current understanding of the immune system and its role in cancer.
Rare Cell Discovery With a High-Plex Imaging Platform content piece image
App Note / Case Study

Rare Cell Discovery With a High-Plex Imaging Platform

Rare cells play pivotal roles in disease initiation, maintenance and progression. Yet, identifying these cells remains a difficult task for low-plex technologies, as it is not always clear a priori which biomarkers distinguish rare phenotypes from the remaining population.
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