A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage

The quantitative and systematic analysis of embryonic cell dynamics from in vivo 3D+time image data sets is a major challenge at the forefront of developmental biology. Despite recent breakthroughs in the microscopy imaging of living systems, producing an accurate cell lineage tree for any developin...

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Autores principales: Faure, Emmanuel, Savy, Thierry, Rizzi, Barbara, Melani, Camilo, Stašová, Olga, Fabrèges, Dimitri, Špir, Róbert, Hammons, Mark, Čúnderlík, Róbert, Recher, Gaëlle, Lombardot, Benoît, Duloquin, Louise, Colin, Ingrid, Kollár, Jozef, Desnoulez, Sophie, Affaticati, Pierre, Maury, Benoît, Boyreau, Adeline, Nief, Jean-Yves, Calvat, Pascal, Vernier, Philippe, Frain, Monique, Lutfalla, Georges, Kergosien, Yannick, Suret, Pierre, Remešíková, Mariana, Doursat, René, Sarti, Alessandro, Mikula, Karol, Peyriéras, Nadine, Bourgine, Paul
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2016
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4773431/
https://www.ncbi.nlm.nih.gov/pubmed/26912388
http://dx.doi.org/10.1038/ncomms9674
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author Faure, Emmanuel
Savy, Thierry
Rizzi, Barbara
Melani, Camilo
Stašová, Olga
Fabrèges, Dimitri
Špir, Róbert
Hammons, Mark
Čúnderlík, Róbert
Recher, Gaëlle
Lombardot, Benoît
Duloquin, Louise
Colin, Ingrid
Kollár, Jozef
Desnoulez, Sophie
Affaticati, Pierre
Maury, Benoît
Boyreau, Adeline
Nief, Jean-Yves
Calvat, Pascal
Vernier, Philippe
Frain, Monique
Lutfalla, Georges
Kergosien, Yannick
Suret, Pierre
Remešíková, Mariana
Doursat, René
Sarti, Alessandro
Mikula, Karol
Peyriéras, Nadine
Bourgine, Paul
author_facet Faure, Emmanuel
Savy, Thierry
Rizzi, Barbara
Melani, Camilo
Stašová, Olga
Fabrèges, Dimitri
Špir, Róbert
Hammons, Mark
Čúnderlík, Róbert
Recher, Gaëlle
Lombardot, Benoît
Duloquin, Louise
Colin, Ingrid
Kollár, Jozef
Desnoulez, Sophie
Affaticati, Pierre
Maury, Benoît
Boyreau, Adeline
Nief, Jean-Yves
Calvat, Pascal
Vernier, Philippe
Frain, Monique
Lutfalla, Georges
Kergosien, Yannick
Suret, Pierre
Remešíková, Mariana
Doursat, René
Sarti, Alessandro
Mikula, Karol
Peyriéras, Nadine
Bourgine, Paul
author_sort Faure, Emmanuel
collection PubMed
description The quantitative and systematic analysis of embryonic cell dynamics from in vivo 3D+time image data sets is a major challenge at the forefront of developmental biology. Despite recent breakthroughs in the microscopy imaging of living systems, producing an accurate cell lineage tree for any developing organism remains a difficult task. We present here the BioEmergences workflow integrating all reconstruction steps from image acquisition and processing to the interactive visualization of reconstructed data. Original mathematical methods and algorithms underlie image filtering, nucleus centre detection, nucleus and membrane segmentation, and cell tracking. They are demonstrated on zebrafish, ascidian and sea urchin embryos with stained nuclei and membranes. Subsequent validation and annotations are carried out using Mov-IT, a custom-made graphical interface. Compared with eight other software tools, our workflow achieved the best lineage score. Delivered in standalone or web service mode, BioEmergences and Mov-IT offer a unique set of tools for in silico experimental embryology.
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spelling pubmed-47734312016-03-04 A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage Faure, Emmanuel Savy, Thierry Rizzi, Barbara Melani, Camilo Stašová, Olga Fabrèges, Dimitri Špir, Róbert Hammons, Mark Čúnderlík, Róbert Recher, Gaëlle Lombardot, Benoît Duloquin, Louise Colin, Ingrid Kollár, Jozef Desnoulez, Sophie Affaticati, Pierre Maury, Benoît Boyreau, Adeline Nief, Jean-Yves Calvat, Pascal Vernier, Philippe Frain, Monique Lutfalla, Georges Kergosien, Yannick Suret, Pierre Remešíková, Mariana Doursat, René Sarti, Alessandro Mikula, Karol Peyriéras, Nadine Bourgine, Paul Nat Commun Article The quantitative and systematic analysis of embryonic cell dynamics from in vivo 3D+time image data sets is a major challenge at the forefront of developmental biology. Despite recent breakthroughs in the microscopy imaging of living systems, producing an accurate cell lineage tree for any developing organism remains a difficult task. We present here the BioEmergences workflow integrating all reconstruction steps from image acquisition and processing to the interactive visualization of reconstructed data. Original mathematical methods and algorithms underlie image filtering, nucleus centre detection, nucleus and membrane segmentation, and cell tracking. They are demonstrated on zebrafish, ascidian and sea urchin embryos with stained nuclei and membranes. Subsequent validation and annotations are carried out using Mov-IT, a custom-made graphical interface. Compared with eight other software tools, our workflow achieved the best lineage score. Delivered in standalone or web service mode, BioEmergences and Mov-IT offer a unique set of tools for in silico experimental embryology. Nature Publishing Group 2016-02-25 /pmc/articles/PMC4773431/ /pubmed/26912388 http://dx.doi.org/10.1038/ncomms9674 Text en Copyright © 2016, Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Faure, Emmanuel
Savy, Thierry
Rizzi, Barbara
Melani, Camilo
Stašová, Olga
Fabrèges, Dimitri
Špir, Róbert
Hammons, Mark
Čúnderlík, Róbert
Recher, Gaëlle
Lombardot, Benoît
Duloquin, Louise
Colin, Ingrid
Kollár, Jozef
Desnoulez, Sophie
Affaticati, Pierre
Maury, Benoît
Boyreau, Adeline
Nief, Jean-Yves
Calvat, Pascal
Vernier, Philippe
Frain, Monique
Lutfalla, Georges
Kergosien, Yannick
Suret, Pierre
Remešíková, Mariana
Doursat, René
Sarti, Alessandro
Mikula, Karol
Peyriéras, Nadine
Bourgine, Paul
A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage
title A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage
title_full A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage
title_fullStr A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage
title_full_unstemmed A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage
title_short A workflow to process 3D+time microscopy images of developing organisms and reconstruct their cell lineage
title_sort workflow to process 3d+time microscopy images of developing organisms and reconstruct their cell lineage
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4773431/
https://www.ncbi.nlm.nih.gov/pubmed/26912388
http://dx.doi.org/10.1038/ncomms9674
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