Analyzing proteome topology and function by automated multidimensional fluorescence microscopy

Temporal and spatial regulation of proteins contributes to function. We describe a multidimensional microscopic robot technology for high-throughput protein colocalization studies that runs cycles of fluorescence tagging, imaging and bleaching in situ . This technology combines three advances: a flu...

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Veröffentlicht in:	Nature biotechnology 2006-10, Vol.24 (10), p.1270-1278
Hauptverfasser:	Schubert, Walter, Bonnekoh, Bernd, Pommer, Ansgar J, Philipsen, Lars, Böckelmann, Raik, Malykh, Yanina, Gollnick, Harald, Friedenberger, Manuela, Bode, Marcus, Dress, Andreas W M
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Schlagworte:	Agriculture Automation Bioinformatics Biological and medical sciences Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Biotechnology Bleaching Dermatitis, Atopic - metabolism Fluorescence Fluorescence microscopy Frequency distribution Fundamental and applied biological sciences. Psychology Humans Image Processing, Computer-Assisted Life Sciences Mass Spectrometry Microscopy Microscopy, Fluorescence - methods Pathology - methods Proteins Proteins - analysis Proteins - metabolism Proteomics Proteomics - methods Psoriasis - metabolism Reproducibility of Results Skin - metabolism Topology
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creator	Schubert, Walter Bonnekoh, Bernd Pommer, Ansgar J Philipsen, Lars Böckelmann, Raik Malykh, Yanina Gollnick, Harald Friedenberger, Manuela Bode, Marcus Dress, Andreas W M
description	Temporal and spatial regulation of proteins contributes to function. We describe a multidimensional microscopic robot technology for high-throughput protein colocalization studies that runs cycles of fluorescence tagging, imaging and bleaching in situ . This technology combines three advances: a fluorescence technique capable of mapping hundreds of different proteins in one tissue section or cell sample; a method selecting the most prominent combinatorial molecular patterns by representing the data as binary vectors; and a system for imaging the distribution of these protein clusters in a so-called toponome map. By analyzing many cell and tissue types, we show that this approach reveals rules of hierarchical protein network organization, in which the frequency distribution of different protein clusters obeys Zipf's law, and state-specific lead proteins appear to control protein network topology and function. The technology may facilitate the development of diagnostics and targeted therapies.
doi_str_mv	10.1038/nbt1250
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We describe a multidimensional microscopic robot technology for high-throughput protein colocalization studies that runs cycles of fluorescence tagging, imaging and bleaching in situ . This technology combines three advances: a fluorescence technique capable of mapping hundreds of different proteins in one tissue section or cell sample; a method selecting the most prominent combinatorial molecular patterns by representing the data as binary vectors; and a system for imaging the distribution of these protein clusters in a so-called toponome map. By analyzing many cell and tissue types, we show that this approach reveals rules of hierarchical protein network organization, in which the frequency distribution of different protein clusters obeys Zipf's law, and state-specific lead proteins appear to control protein network topology and function. 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We describe a multidimensional microscopic robot technology for high-throughput protein colocalization studies that runs cycles of fluorescence tagging, imaging and bleaching in situ . This technology combines three advances: a fluorescence technique capable of mapping hundreds of different proteins in one tissue section or cell sample; a method selecting the most prominent combinatorial molecular patterns by representing the data as binary vectors; and a system for imaging the distribution of these protein clusters in a so-called toponome map. By analyzing many cell and tissue types, we show that this approach reveals rules of hierarchical protein network organization, in which the frequency distribution of different protein clusters obeys Zipf's law, and state-specific lead proteins appear to control protein network topology and function. 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subjects	Agriculture Automation Bioinformatics Biological and medical sciences Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Biotechnology Bleaching Dermatitis, Atopic - metabolism Fluorescence Fluorescence microscopy Frequency distribution Fundamental and applied biological sciences. Psychology Humans Image Processing, Computer-Assisted Life Sciences Mass Spectrometry Microscopy Microscopy, Fluorescence - methods Pathology - methods Proteins Proteins - analysis Proteins - metabolism Proteomics Proteomics - methods Psoriasis - metabolism Reproducibility of Results Skin - metabolism Topology
title	Analyzing proteome topology and function by automated multidimensional fluorescence microscopy
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