Measuring mRNA copy number in individual Escherichia coli cells using single-molecule fluorescent in situ hybridization

Samuel O. Skinner; Leonardo A. Sepúlveda; Heng Xu; Ido Golding

doi:10.1038/nprot.2013.066

Measuring mRNA copy number in individual Escherichia coli cells using single-molecule fluorescent in situ hybridization

Samuel O. Skinner, Leonardo A. Sepúlveda, Heng Xu, Ido Golding

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Abstract

We present a protocol for measuring the absolute number of mRNA molecules from a gene of interest in individual, chemically fixed Escherichia coli cells. A set of fluorescently labeled oligonucleotide probes is hybridized to the target mRNA, such that each mRNA molecule is decorated by a known number of fluorescent dyes. Cells are then imaged using fluorescence microscopy. The copy number of the target mRNA is estimated from the total intensity of fluorescent foci in the cell, rather than from counting discrete 'spots' as in other currently available protocols. Image analysis is performed using an automated algorithm. The measured mRNA copy number distribution obtained from many individual cells can be used to extract the parameters of stochastic gene activity, namely the frequency and size of transcription bursts from the gene of interest. The experimental procedure takes 2 d, with another 2-3 d typically required for image and data analysis.

Original language	English (US)
Pages (from-to)	1100-1113
Number of pages	14
Journal	Nature Protocols
Volume	8
Issue number	6
DOIs	https://doi.org/10.1038/nprot.2013.066
State	Published - Jun 2013

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1038/nprot.2013.066

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title = "Measuring mRNA copy number in individual Escherichia coli cells using single-molecule fluorescent in situ hybridization",

abstract = "We present a protocol for measuring the absolute number of mRNA molecules from a gene of interest in individual, chemically fixed Escherichia coli cells. A set of fluorescently labeled oligonucleotide probes is hybridized to the target mRNA, such that each mRNA molecule is decorated by a known number of fluorescent dyes. Cells are then imaged using fluorescence microscopy. The copy number of the target mRNA is estimated from the total intensity of fluorescent foci in the cell, rather than from counting discrete 'spots' as in other currently available protocols. Image analysis is performed using an automated algorithm. The measured mRNA copy number distribution obtained from many individual cells can be used to extract the parameters of stochastic gene activity, namely the frequency and size of transcription bursts from the gene of interest. The experimental procedure takes 2 d, with another 2-3 d typically required for image and data analysis.",

author = "Skinner, \{Samuel O.\} and Sep{\'u}lveda, \{Leonardo A.\} and Heng Xu and Ido Golding",

note = "acknoWleDGMents C. Zong and L.-H. So first introduced the smFISH protocol in our lab. We thank A. Raj, R. Singer and L. Cai for generous advice. We thank all members of the Golding lab for providing help with experiments. The Schnitzcells software was kindly provided by M. Elowitz (California Institute of Technology). Work in the Golding lab was supported by the US National Institutes of Health grant no. R01 GM082837, US National Science Foundation grant nos. 082265 (Physics Frontiers Center: Center for the Physics of Living Cells) and PHY-1147498 (CAREER), Human Frontier Science Program grant no. RGY 70/2008 and Welch Foundation grant no. Q-1759.",

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doi = "10.1038/nprot.2013.066",

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AU - Sepúlveda, Leonardo A.

AU - Xu, Heng

AU - Golding, Ido

N1 - acknoWleDGMents C. Zong and L.-H. So first introduced the smFISH protocol in our lab. We thank A. Raj, R. Singer and L. Cai for generous advice. We thank all members of the Golding lab for providing help with experiments. The Schnitzcells software was kindly provided by M. Elowitz (California Institute of Technology). Work in the Golding lab was supported by the US National Institutes of Health grant no. R01 GM082837, US National Science Foundation grant nos. 082265 (Physics Frontiers Center: Center for the Physics of Living Cells) and PHY-1147498 (CAREER), Human Frontier Science Program grant no. RGY 70/2008 and Welch Foundation grant no. Q-1759.

PY - 2013/6

Y1 - 2013/6

N2 - We present a protocol for measuring the absolute number of mRNA molecules from a gene of interest in individual, chemically fixed Escherichia coli cells. A set of fluorescently labeled oligonucleotide probes is hybridized to the target mRNA, such that each mRNA molecule is decorated by a known number of fluorescent dyes. Cells are then imaged using fluorescence microscopy. The copy number of the target mRNA is estimated from the total intensity of fluorescent foci in the cell, rather than from counting discrete 'spots' as in other currently available protocols. Image analysis is performed using an automated algorithm. The measured mRNA copy number distribution obtained from many individual cells can be used to extract the parameters of stochastic gene activity, namely the frequency and size of transcription bursts from the gene of interest. The experimental procedure takes 2 d, with another 2-3 d typically required for image and data analysis.

AB - We present a protocol for measuring the absolute number of mRNA molecules from a gene of interest in individual, chemically fixed Escherichia coli cells. A set of fluorescently labeled oligonucleotide probes is hybridized to the target mRNA, such that each mRNA molecule is decorated by a known number of fluorescent dyes. Cells are then imaged using fluorescence microscopy. The copy number of the target mRNA is estimated from the total intensity of fluorescent foci in the cell, rather than from counting discrete 'spots' as in other currently available protocols. Image analysis is performed using an automated algorithm. The measured mRNA copy number distribution obtained from many individual cells can be used to extract the parameters of stochastic gene activity, namely the frequency and size of transcription bursts from the gene of interest. The experimental procedure takes 2 d, with another 2-3 d typically required for image and data analysis.

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Measuring mRNA copy number in individual Escherichia coli cells using single-molecule fluorescent in situ hybridization

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