RNA degradation plays a fundamental role in regulating gene expression. In order to characterize the spatiotemporal dynamics of RNA turnover in single cells, we developed a fluorescent biosensor based on dual-color, single-molecule RNA imaging that allows intact transcripts to be distinguished from stabilized degradation intermediates. Using this method, we measured mRNA decay in single cells and found that individual degradation events occur independently within the cytosol and are not enriched within processing bodies. We show that slicing of an mRNA targeted for endonucleolytic cleavage by the RNA-induced silencing complex can be observed in real time in living cells. This methodology provides a framework for investigating the entire life history of individual mRNAs from birth to death in single cells. RNA degradation plays a fundamental role in regulating gene expression. Horvathova et al. developed a fluorescence microscopy methodology that enables the dynamics of RNA degradation to be quantified with single-molecule resolution in fixed and living cells. This allows the entire life of mRNAs from birth to death to be visualized.
The Dynamics of mRNA Turnover Revealed by Single-Molecule Imaging in Single Cells / I. Horvathova, F. Voigt, A.V. Kotrys, Y. Zhan, C.G. Artus-Revel, J. Eglinger, M.B. Stadler, L. Giorgetti, J.A. Chao. - In: MOLECULAR CELL. - ISSN 1097-2765. - 68:3(2017), pp. 615-625. [10.1016/j.molcel.2017.09.030]
The Dynamics of mRNA Turnover Revealed by Single-Molecule Imaging in Single Cells
Y. Zhan;L. GiorgettiPenultimo
;
2017
Abstract
RNA degradation plays a fundamental role in regulating gene expression. In order to characterize the spatiotemporal dynamics of RNA turnover in single cells, we developed a fluorescent biosensor based on dual-color, single-molecule RNA imaging that allows intact transcripts to be distinguished from stabilized degradation intermediates. Using this method, we measured mRNA decay in single cells and found that individual degradation events occur independently within the cytosol and are not enriched within processing bodies. We show that slicing of an mRNA targeted for endonucleolytic cleavage by the RNA-induced silencing complex can be observed in real time in living cells. This methodology provides a framework for investigating the entire life history of individual mRNAs from birth to death in single cells. RNA degradation plays a fundamental role in regulating gene expression. Horvathova et al. developed a fluorescence microscopy methodology that enables the dynamics of RNA degradation to be quantified with single-molecule resolution in fixed and living cells. This allows the entire life of mRNAs from birth to death to be visualized.
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