Get reliability with an easy to use, end-to-end multi-omics spatial analysis solution from Veranome Biosystems
Veranome Biosystems has developed the Veranome Spatial Analyzer (VSA-1), a fully automated platform that provides sub-cellular spatial resolution detection of RNA targets to enable biological insights from spatial mapping of cell types to improve and create a deeper understanding of the molecular organization of healthy and diseased tissues.
With Veranome’s Ultra-High Multiplex Spatial Transcriptomics you get:
Automated workflows for multi-omic RNA and protein quantification
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
Dual flow cells for high sample throughput
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
Built in vibration control and instrument monitoring
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
Enhanced optics provide highest quality imaging
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
Flexible workflow and assay options for challenging tissues
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
Easy-to-use data filtering and visualization software
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
Intuitive data visualization software enabling rapid data analysis
Features
• The broadest assay portfolio available on one instrument • Fully automated end-to-end multi-omics solution • High specificity and sensitivity assays to enable sub-cellular transcript spatial mapping • Ability to simplify and accelerate data collection and analysis • Localization and quantification of in situ RNA subcellular gene expression in tissues • High sensitivity detection of even the lowest expressed genes • Comprehensive software for data processing and image analysis • Flexible and customizable pre-validated panel design • Multi-omic analysis of protein with RNA using immunofluorescence
High-plex Spatial RNA Data Sets
Veranome makes it easy to get high-plex spatial RNA data sets using your samples. From panel design and selection we provide a step by step framework to analyze your data using our integrated software solutions to enable biologists the ability to successfully visualize complex single-cell data sets without the need for complex bioinformatics. We have expanded our laboratory capabilities to enable biopharma, academia and research institutions, across neuroscience and oncology applications, access to high-plex spatial workflows using our integrated instrumentation and end-to end software suite.
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