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We present split-FISH, a multiplexed fluorescence in situ hybridization method that leverages a split-probe design to achieve enhanced specificity. Split-FISH reduces off-target background fluorescence, decreases false positives and enables accurate… Click to show full abstract
We present split-FISH, a multiplexed fluorescence in situ hybridization method that leverages a split-probe design to achieve enhanced specificity. Split-FISH reduces off-target background fluorescence, decreases false positives and enables accurate RNA profiling in uncleared tissues. We demonstrate the efficacy of split-FISH on various mouse tissues by quantifying the distribution and abundance of 317 genes in single cells and reveal diverse localization patterns for spatial regulation of the transcriptome in complex tissues. Split-FISH leverages a split-probe design to achieve enhanced specificity in multiplexed fluorescence in situ hybridization. Split-FISH reduces background and false positives, enabling transcriptome profiling in uncleared tissues.
Journal Title: Nature Methods
Year Published: 2020
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