Relative quantification of protein-protein interactions using a dual luciferase reporter pull-down assay system

The identification and quantitative analysis of protein-protein interactions are essential to the functional characterization of proteins in the post-proteomics era. The methods currently available are generally time-consuming, technically complicated, insensitive and/or semi-quantitative. The lack...

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Veröffentlicht in:	PloS one 2011-10, Vol.6 (10), p.e26414-e26414
Hauptverfasser:	Jia, Shuaizheng, Peng, Jianchun, Gao, Bo, Chen, Zhongbin, Zhou, Yong, Fu, Qiuxia, Wang, Haiping, Zhan, Linsheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Assaying Beads Biology Cell Line Cytoplasm Dimerization Feasibility Studies Fireflies Genes, Reporter Hepatitis Humans Interferon Interferon regulatory factor 3 Interferon Regulatory Factor-3 - metabolism Journalists Localization Luciferase Luciferases - genetics Medicine Nuclei Peptide mapping Protein Binding Protein interaction Protein purification Protein-protein interactions Proteins Proteins - metabolism Proteomics Quantitative analysis Regulation Rodents Science Policy Streptavidin Transcription factors Transgenic animals Viral proteins
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creator	Jia, Shuaizheng Peng, Jianchun Gao, Bo Chen, Zhongbin Zhou, Yong Fu, Qiuxia Wang, Haiping Zhan, Linsheng
description	The identification and quantitative analysis of protein-protein interactions are essential to the functional characterization of proteins in the post-proteomics era. The methods currently available are generally time-consuming, technically complicated, insensitive and/or semi-quantitative. The lack of simple, sensitive approaches to precisely quantify protein-protein interactions still prevents our understanding of the functions of many proteins. Here, we develop a novel dual luciferase reporter pull-down assay by combining a biotinylated Firefly luciferase pull-down assay with a dual luciferase reporter assay. The biotinylated Firefly luciferase-tagged protein enables rapid and efficient isolation of a putative Renilla luciferase-tagged binding protein from a relatively small amount of sample. Both of these proteins can be quantitatively detected using the dual luciferase reporter assay system. Protein-protein interactions, including Fos-Jun located in the nucleus; MAVS-TRAF3 in cytoplasm; inducible IRF3 dimerization; viral protein-regulated interactions, such as MAVS-MAVS and MAVS-TRAF3; IRF3 dimerization; and protein interaction domain mapping, are studied using this novel assay system. Herein, we demonstrate that this dual luciferase reporter pull-down assay enables the quantification of the relative amounts of interacting proteins that bind to streptavidin-coupled beads for protein purification. This study provides a simple, rapid, sensitive, and efficient approach to identify and quantify relative protein-protein interactions. Importantly, the dual luciferase reporter pull-down method will facilitate the functional determination of proteins.
doi_str_mv	10.1371/journal.pone.0026414
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The methods currently available are generally time-consuming, technically complicated, insensitive and/or semi-quantitative. The lack of simple, sensitive approaches to precisely quantify protein-protein interactions still prevents our understanding of the functions of many proteins. Here, we develop a novel dual luciferase reporter pull-down assay by combining a biotinylated Firefly luciferase pull-down assay with a dual luciferase reporter assay. The biotinylated Firefly luciferase-tagged protein enables rapid and efficient isolation of a putative Renilla luciferase-tagged binding protein from a relatively small amount of sample. Both of these proteins can be quantitatively detected using the dual luciferase reporter assay system. Protein-protein interactions, including Fos-Jun located in the nucleus; MAVS-TRAF3 in cytoplasm; inducible IRF3 dimerization; viral protein-regulated interactions, such as MAVS-MAVS and MAVS-TRAF3; IRF3 dimerization; and protein interaction domain mapping, are studied using this novel assay system. Herein, we demonstrate that this dual luciferase reporter pull-down assay enables the quantification of the relative amounts of interacting proteins that bind to streptavidin-coupled beads for protein purification. This study provides a simple, rapid, sensitive, and efficient approach to identify and quantify relative protein-protein interactions. 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subjects	Animals Assaying Beads Biology Cell Line Cytoplasm Dimerization Feasibility Studies Fireflies Genes, Reporter Hepatitis Humans Interferon Interferon regulatory factor 3 Interferon Regulatory Factor-3 - metabolism Journalists Localization Luciferase Luciferases - genetics Medicine Nuclei Peptide mapping Protein Binding Protein interaction Protein purification Protein-protein interactions Proteins Proteins - metabolism Proteomics Quantitative analysis Regulation Rodents Science Policy Streptavidin Transcription factors Transgenic animals Viral proteins
title	Relative quantification of protein-protein interactions using a dual luciferase reporter pull-down assay system
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