Barcoded oligonucleotides ligated on RNA amplified for multiplexed and parallel in situ analyses

Abstract We present barcoded oligonucleotides ligated on RNA amplified for multiplexed and parallel insitu analyses (BOLORAMIS), a reverse transcription-free method for spatially-resolved, targeted, in situ RNA identification of single or multiple targets. BOLORAMIS was demonstrated on a range of ce...

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Veröffentlicht in:Nucleic acids research 2021-06, Vol.49 (10), p.e58-e58
Hauptverfasser: Liu, Songlei, Punthambaker, Sukanya, Iyer, Eswar P R, Ferrante, Thomas, Goodwin, Daniel, Fürth, Daniel, Pawlowski, Andrew C, Jindal, Kunal, Tam, Jenny M, Mifflin, Lauren, Alon, Shahar, Sinha, Anubhav, Wassie, Asmamaw T, Chen, Fei, Cheng, Anne, Willocq, Valerie, Meyer, Katharina, Ling, King-Hwa, Camplisson, Conor K, Kohman, Richie E, Aach, John, Lee, Je Hyuk, Yankner, Bruce A, Boyden, Edward S, Church, George M
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Sprache:eng
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Zusammenfassung:Abstract We present barcoded oligonucleotides ligated on RNA amplified for multiplexed and parallel insitu analyses (BOLORAMIS), a reverse transcription-free method for spatially-resolved, targeted, in situ RNA identification of single or multiple targets. BOLORAMIS was demonstrated on a range of cell types and human cerebral organoids. Singleplex experiments to detect coding and non-coding RNAs in human iPSCs showed a stem-cell signature pattern. Specificity of BOLORAMIS was found to be 92% as illustrated by a clear distinction between human and mouse housekeeping genes in a co-culture system, as well as by recapitulation of subcellular localization of lncRNA MALAT1. Sensitivity of BOLORAMIS was quantified by comparing with single molecule FISH experiments and found to be 11%, 12% and 35% for GAPDH, TFRC and POLR2A, respectively. To demonstrate BOLORAMIS for multiplexed gene analysis, we targeted 96 mRNAs within a co-culture of iNGN neurons and HMC3 human microglial cells. We used fluorescence in situ sequencing to detect error-robust 8-base barcodes associated with each of these genes. We then used this data to uncover the spatial relationship among cells and transcripts by performing single-cell clustering and gene–gene proximity analyses. We anticipate the BOLORAMIS technology for in situ RNA detection to find applications in basic and translational research.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkab120