Visualization and quantification of single RNA transcripts in plants, using Stellaris™ RNA fluorescence in situ hybridisation (RNA FISH) using smFISH technology, is an exciting new application. Publications and support materials are now available to assist with this application.
learn moreAbout 25% of publications citing Stellaris™ RNA FISH use mouse targets, making this the second most common target after humans.
learn moreVisualisation and quantification of neuroscience-related single RNA transcripts, using Stellaris™ RNA fluorescence in situ hybridization (RNA FISH) or smFISH, offers the unique ability to observe altered disease or region-specific expression in fixed cells or tissues, including an entire intact brain or organism.
learn moreVisualisation and quantification of single RNA transcripts, using Stellaris™ RNA fluorescence in situ hybridisation, offers the unique ability to observe altered disease-specific expression in fixed cells or intact tissue
learn moreStellaris™ RNA FISH allows for visualisation and quantification of single RNA transcripts, which offers the unique ability to observe gene expression in intact tissue or fixed cells.
learn moreStellaris™ RNA FISH allows for visualisation and quantification of single RNA transcripts, which offers the unique ability to observe gene expression in intact tissue or fixed cells
learn moreStem cells hold great promise for the treatment of various diseases due to their capacity for self-renewal and ability to differentiate. Stellaris™ RNA fluorescence in situ hybridisation offers a unique insight into the expression patterns of embryonic and adult stem cells.
learn moreDetection and study of pathogen and viral RNA within intact host cells, tissues, and organisms offers tremendous potential to advance our understanding of infection dynamics and responses to treatments. Stellaris™ RNA FISH can detect viral RNA within host cells as well as unique segments comprising whole virus particles.
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