Digital Quantification of Proteins and MRNA in Single Mammalian Cells

Overview

Journal Mol Cell

Publisher Cell Press

Specialty Cell Biology

Date 2016 Mar 19

PMID 26990994

Citations 76

Authors

Cem Albayrak

Christian A Jordi

Christoph Zechner

Jing Lin

Colette A Bichsel

Mustafa Khammash

Savas Tay

Affiliations

Soon will be listed here.

Abstract

Absolute quantification of macromolecules in single cells is critical for understanding and modeling biological systems that feature cellular heterogeneity. Here we show extremely sensitive and absolute quantification of both proteins and mRNA in single mammalian cells by a very practical workflow that combines proximity ligation assay (PLA) and digital PCR. This digital PLA method has femtomolar sensitivity, which enables the quantification of very small protein concentration changes over its entire 3-log dynamic range, a quality necessary for accounting for single-cell heterogeneity. We counted both endogenous (CD147) and exogenously expressed (GFP-p65) proteins from hundreds of single cells and determined the correlation between CD147 mRNA and the protein it encodes. Using our data, a stochastic two-state model of the central dogma was constructed and verified using joint mRNA/protein distributions, allowing us to estimate transcription burst sizes and extrinsic noise strength and calculate the transcription and translation rate constants in single mammalian cells.

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