Transcription and RNA decay play critical roles in the process of gene expression and the ability to accurately measure cellular mRNA levels is essential for understanding this regulation. Here, we describe a single-molecule fluorescent in situ hybridization (smFISH) method (as performed in Haimovich et al., 2017) that detects single RNA molecules in individual cells. This technique employs multiple single-stranded, fluorescent labeled, short DNA probes that hybridize to target RNAs in fixed cells, allowing for both the quantification and localization of cytoplasmic and nuclear RNAs at the single-cell level and single-molecule resolution. Analyzing smFISH data provides absolute quantitative data of the number of cytoplasmic ("mature") mRNAs, the number of nascent RNA molecules at distinct transcription sites, and the spatial localization of these RNAs in the cytoplasm and/or nucleoplasm.
Journal article
Single-molecule Fluorescence in situ Hybridization (smFISH) for RNA Detection in Adherent Animal Cells
Bio-Protocol, Vol.8(21), 3070
05/Nov/2018
Abstract
Details
- Title
- Single-molecule Fluorescence in situ Hybridization (smFISH) for RNA Detection in Adherent Animal Cells
- Creators
- Gal Haimovich (Corresponding Author) - 972WIS_INST___111Jeffrey E. Gerst (null) - 972WIS_INST___111
- Resource Type
- Journal article
- Publication Details
- Bio-Protocol, Vol.8(21), 3070; 05/Nov/2018
- Number of pages
- 17
- Language
- English
- DOI
- https://doi.org/10.21769/BioProtoc.3070
- Grant note
- G.H. is a recipient of the Koshland Foundation and McDonald-Leapman Grant Senior Post-doctoral fellowship. This work was funded by grants from the Joel and Mady Dukler Fund for Cancer Research (WIS), a Proof-of-Principle Grant from the Moross Integrated Cancer Center, Weizmann Institute, and US-Israel Binational Science Foundation-National Science Foundation (#2015846) to J.E.G.
- Record Identifier
- 993262311503596
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