Contextual Automated 3D Analysis of Subcellular Organelles Adapted to High-Content Screening

Advances in automated imaging microscopy allow fast acquisitions of multidimensional biological samples. Those microscopes open new possibilities for analyzing subcellular structures and spatial cellular arrangements. In this article, the authors describe a 3D image analysis framework adapted to med...

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Veröffentlicht in:	Journal of biomolecular screening 2010-08, Vol.15 (7), p.847-857
Hauptverfasser:	Dorval, Thierry, Ogier, Arnaud, Genovesio, Auguste, Lim, Hye Kuyon, Kwon, Do Yoon, Lee, Joo-Hyun, Worman, Howard J., Dauer, William, Grailhe, Regis
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals automation Automation - methods Biotechnology Cell Cycle Cell Nucleus - metabolism Computer Science Dystonic Disorders - diagnosis HeLa Cells High-Throughput Screening Assays - methods Humans image analysis image-based screening Imaging, Three-Dimensional - methods Mice Models, Biological Molecular Chaperones - metabolism Organelles - metabolism phenotypic classification Subcellular Fractions - metabolism
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container_issue	7
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container_title	Journal of biomolecular screening
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creator	Dorval, Thierry Ogier, Arnaud Genovesio, Auguste Lim, Hye Kuyon Kwon, Do Yoon Lee, Joo-Hyun Worman, Howard J. Dauer, William Grailhe, Regis
description	Advances in automated imaging microscopy allow fast acquisitions of multidimensional biological samples. Those microscopes open new possibilities for analyzing subcellular structures and spatial cellular arrangements. In this article, the authors describe a 3D image analysis framework adapted to medium-throughput screening. Upon adaptive and regularized segmentation, followed by precise 3D reconstruction, they achieve automatic quantification of numerous relevant 3D descriptors related to the shape, texture, and fluorescence intensity of multiple stained subcellular structures. A global analysis of the 3D reconstructed scene shows additional possibilities to quantify the relative position of organelles. Implementing this methodology, the authors analyzed the subcellular reorganization of the nucleus, the Golgi apparatus, and the centrioles occurring during the cell cycle. In addition, they quantified the effect of a genetic mutation associated with the early onset primary dystonia on the redistribution of torsinA from the bulk endoplasmic reticulum to the perinuclear space of the nuclear envelope. They show that their method enables the classification of various translocation levels of torsinA and opens the possibility for compound-based screening campaigns restoring the normal torsinA phenotype.
doi_str_mv	10.1177/1087057110374993
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Joseph</contributor><contributor>Davies, Anthony</contributor><contributor>Haney, Steven</contributor><creatorcontrib>Dorval, Thierry</creatorcontrib><creatorcontrib>Ogier, Arnaud</creatorcontrib><creatorcontrib>Genovesio, Auguste</creatorcontrib><creatorcontrib>Lim, Hye Kuyon</creatorcontrib><creatorcontrib>Kwon, Do Yoon</creatorcontrib><creatorcontrib>Lee, Joo-Hyun</creatorcontrib><creatorcontrib>Worman, Howard J.</creatorcontrib><creatorcontrib>Dauer, William</creatorcontrib><creatorcontrib>Grailhe, Regis</creatorcontrib><title>Contextual Automated 3D Analysis of Subcellular Organelles Adapted to High-Content Screening</title><title>Journal of biomolecular screening</title><addtitle>J Biomol Screen</addtitle><description>Advances in automated imaging microscopy allow fast acquisitions of multidimensional biological samples. Those microscopes open new possibilities for analyzing subcellular structures and spatial cellular arrangements. 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subjects	Animals automation Automation - methods Biotechnology Cell Cycle Cell Nucleus - metabolism Computer Science Dystonic Disorders - diagnosis HeLa Cells High-Throughput Screening Assays - methods Humans image analysis image-based screening Imaging, Three-Dimensional - methods Mice Models, Biological Molecular Chaperones - metabolism Organelles - metabolism phenotypic classification Subcellular Fractions - metabolism
title	Contextual Automated 3D Analysis of Subcellular Organelles Adapted to High-Content Screening
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