Detecting RNA base methylations in single cells by in situ hybridization.

Rohan T Ranasinghe, Martin R Challand, Kristina A Ganzinger, Benjamin W Lewis, Charlotte Softley, Wolfgang H Schmied, Mathew H Horrocks, Nadia Shivji, Jason W Chin, James Spencer, David Klenerman

Nature Communications 2018 Februrary 14

Methylated bases in tRNA, rRNA and mRNA control a variety of cellular processes, including protein synthesis, antimicrobial resistance and gene expression. Currently, bulk methods that report the average methylation state of ~104 -107 cells are used to detect these modifications, obscuring potentially important biological information. Here, we use in situ hybridization of Molecular Beacons for single-cell detection of three methylations (m6 2 A, m1 G and m3 U) that destabilize Watson-Crick base pairs. Our method-methylation-sensitive RNA fluorescence in situ hybridization-detects single methylations of rRNA, quantifies antibiotic-resistant bacteria in mixtures of cells and simultaneously detects multiple methylations using multicolor fluorescence imaging.

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