High-throughput fluorescence labelling of full-length cDNA products based on a reconstituted translation system

Yuko Kawahashi; Nobuhide Doi; Yo Oishi; Chizuru Tsuda; Hideaki Takashima; Tomoya Baba; Hirotada Mori; Takashi Ito; Hiroshi Yanagawa

doi:10.1093/jb/mvm003

High-throughput fluorescence labelling of full-length cDNA products based on a reconstituted translation system

Yuko Kawahashi, Nobuhide Doi, Yo Oishi, Chizuru Tsuda, Hideaki Takashima, Tomoya Baba, Hirotada Mori, Takashi Ito, Hiroshi Yanagawa

Department of Biosciences and Informatics

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

Although recent advances in fluorescence-based technologies, such as protein microarrays, have made it possible to analyse more than 10,000 proteins at once, there is a bottleneck in the step of preparation of large numbers of fluorescently labelled proteins for the comprehensive analysis of protein-protein interactions. Here we describe two independent methods for high-throughput fluorescence-labelling of full-length cDNA products at their C-termini using a reconstituted translation system containing fluorescent puromycin. For the first method, release factor-free systems were used. For the second method, stop codons were excluded from cDNAs by using a common mismatch primer in mutagenic PCR. These methods yielded large numbers of labelled proteins from cDNA sets of various organisms, such as mouse, yeast and Escherichia coli.

Original language	English
Pages (from-to)	19-24
Number of pages	6
Journal	Journal of biochemistry
Volume	141
Issue number	1
DOIs	https://doi.org/10.1093/jb/mvm003
Publication status	Published - 2007 Jan

Keywords

Cell-free protein synthesis
Fluorescence labelling
Proteomics
Puromycin
Release factor

ASJC Scopus subject areas

Medicine(all)

Access to Document

10.1093/jb/mvm003

Cite this

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abstract = "Although recent advances in fluorescence-based technologies, such as protein microarrays, have made it possible to analyse more than 10,000 proteins at once, there is a bottleneck in the step of preparation of large numbers of fluorescently labelled proteins for the comprehensive analysis of protein-protein interactions. Here we describe two independent methods for high-throughput fluorescence-labelling of full-length cDNA products at their C-termini using a reconstituted translation system containing fluorescent puromycin. For the first method, release factor-free systems were used. For the second method, stop codons were excluded from cDNAs by using a common mismatch primer in mutagenic PCR. These methods yielded large numbers of labelled proteins from cDNA sets of various organisms, such as mouse, yeast and Escherichia coli.",

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AU - Kawahashi, Yuko

AU - Doi, Nobuhide

AU - Oishi, Yo

AU - Tsuda, Chizuru

AU - Takashima, Hideaki

AU - Baba, Tomoya

AU - Mori, Hirotada

AU - Ito, Takashi

AU - Yanagawa, Hiroshi

PY - 2007/1

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N2 - Although recent advances in fluorescence-based technologies, such as protein microarrays, have made it possible to analyse more than 10,000 proteins at once, there is a bottleneck in the step of preparation of large numbers of fluorescently labelled proteins for the comprehensive analysis of protein-protein interactions. Here we describe two independent methods for high-throughput fluorescence-labelling of full-length cDNA products at their C-termini using a reconstituted translation system containing fluorescent puromycin. For the first method, release factor-free systems were used. For the second method, stop codons were excluded from cDNAs by using a common mismatch primer in mutagenic PCR. These methods yielded large numbers of labelled proteins from cDNA sets of various organisms, such as mouse, yeast and Escherichia coli.

AB - Although recent advances in fluorescence-based technologies, such as protein microarrays, have made it possible to analyse more than 10,000 proteins at once, there is a bottleneck in the step of preparation of large numbers of fluorescently labelled proteins for the comprehensive analysis of protein-protein interactions. Here we describe two independent methods for high-throughput fluorescence-labelling of full-length cDNA products at their C-termini using a reconstituted translation system containing fluorescent puromycin. For the first method, release factor-free systems were used. For the second method, stop codons were excluded from cDNAs by using a common mismatch primer in mutagenic PCR. These methods yielded large numbers of labelled proteins from cDNA sets of various organisms, such as mouse, yeast and Escherichia coli.

KW - Cell-free protein synthesis

KW - Fluorescence labelling

KW - Proteomics

KW - Puromycin

KW - Release factor

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High-throughput fluorescence labelling of full-length cDNA products based on a reconstituted translation system

Abstract

Keywords

ASJC Scopus subject areas

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