The MERSCOPE® Platform
Position yourself at the forefront of scientific discovery with the MERSCOPE® Platform, the industry’s first high plex, in situ single-cell spatial genomics solution. MERSCOPE uses MERFISH spatial transcriptomics technology to directly map and quantify the spatial distribution of hundreds to tens of thousands of RNA species in individual cells, without the need for downstream sequencing. MERSCOPE is incredibly versatile across applications and sample types, revolutionizing life sciences research.
A Complete Spatial Transcriptomics Solution
We integrated MERFISH spatial transcriptomics technology with high resolution spatial imaging, fluidics, image processing, and automation to deliver a complete end-to-end spatial genomics solution. The MERSCOPE® Platform comes with everything your lab needs to get started with spatial imaging. We built our expertise into every component of the system so you can easily obtain and analyze high-quality MERFISH measurements.
The MERSCOPE® Platform is comprised of:
- MERSCOPE Instrument & Analysis Computer
- Intuitive Instrument and Visualization Software
- MERSCOPE Reagents & Consumables
Profile Large Tissue with Sub-cellular Resolution
Through combinatorial labeling, sequential imaging, and error-robust barcoding, MERFISH technology provides MERSCOPE with the highest detection efficiency and resolution available for spatially profiling the transcriptome, from whole tissue section to single-cell and finally sub-cellular spatial imaging across the whole tissue. We are proud to offer a Data Release Program to provide researchers with public access to MERSCOPE generated spatial genomics data.
MERSCOPE Instrument
MERSCOPE uses MERFISH technology to directly map and quantify the spatial distribution of hundreds to tens of thousands of RNA species in individual cells, without the need for downstream sequencing. The instrument is comprised of an imaging box and a processing computer.
High Sensitivity
Detect low expressing genes that can be missed using other technologies.
High Spatial Resolution
Localize RNA transcripts at a sub-cellular level with ≤100 nm resolution.
High Sensitivity
Detect low expressing genes that can be missed using other technologies.
High Spatial Resolution
Localize RNA transcripts at a sub-cellular level with ≤100 nm resolution.
High Sensitivity
Detect low expressing genes that can be missed using other technologies.
High Spatial Resolution
Localize RNA transcripts at a sub-cellular level with ≤100 nm resolution.