Stellaris Custom RNA FISH Probe Sets
Stellaris Custom RNA FISH probe sets can be designed against almost any RNA target to allow for visualisation, localisation and quantification of individual mRNA transcripts.
learn moreStellaris Custom RNA FISH probe sets can be designed against almost any RNA target to allow for visualisation, localisation and quantification of individual mRNA transcripts.
learn moreStellaris ShipReady RNA FISH Probe sets provide convenient, ready-to-ship positive controls for reference and long non-coding RNA targets.
learn moreWe provide less expensive and easy-to-use Stellaris universal positive controls for validation and optimization of Stellaris RNA FISH workflows.
learn moreStellaris DesignReady probe sets are professionally designed, and go through rigorous bioinformatic analysis to ensure specificity. Stellaris DesignReady Probe Sets are made-to-order.
learn moreStellaris Buffers are ideal for performing Stellaris RNA FISH on cells and tissue, as well as other sample types. The buffers contain proprietary additives to enhance signal and reduce background in assays that may typically exhibit more pronounced background fluorescence
learn moreChIRP is a rapid technique to discover RNA-associated DNA sequences and map genomic binding sites of chromatin associated long noncoding RNAs (lncRNAs) with high sensitivity and low background.
learn moreView Stellaris protocols, educational materials, citation center, image gallery, webinars, tech articles, FAQ, and more.
learn moreStellaris FISH (fluorescence in situ hybridisation) is a RNA visualisation method that allows simultaneous detection, localization, and quantification of individual RNA molecules at the sub-cellular level in fixed samples using widefield fluorescence microscopy. A set of Stellaris FISH Probes comprises multiple oligonucleotides with different sequences each with a fluorescent label that collectively bind along the same target transcript to produce a punctate signal.
The Stellaris FISH technology follows a simple protocol, does not use exotic reagents, is inexpensive and platform-independent, offers same-day results, and is versatile toward many sample types and applications. Scientists may even label Stellaris FISH probes with a number of various dyes to allow for multiplex detection of different RNA targets simultaneously. Finally, scientists can address the stochastic nature of gene expression and visualise RNA through direct detection without isolation, purification, and amplification.
Before getting started with your experiments, please download our Getting Started Guide. You can also learn more about the Stellaris RNA FISH technology by downloading our white paper or by visiting our RNA FISH applications page. Furthermore, The BiosearchTech Blog contains the most up-to-date tips and tricks for running Stellaris experiments.