par Burel, Agnes;Lavault, Marie Theŕèse;Chevalier, Clément 
;Gnaegi, Helmut;Prigent, Sylvain;Mucciolo, Antonio;Dutertre, Steṕhanie;Humbel, Bruno B.M.;Guillaudeux, Thierry;Kolotuev, Irina
Référence Development, 145, 12, dev160879
Publication Publié, 2018-06
;Gnaegi, Helmut;Prigent, Sylvain;Mucciolo, Antonio;Dutertre, Steṕhanie;Humbel, Bruno B.M.;Guillaudeux, Thierry;Kolotuev, IrinaRéférence Development, 145, 12, dev160879
Publication Publié, 2018-06
Article révisé par les pairs
| Résumé : | Using electron microscopy to localize rare cellular events or structures in complex tissue is challenging. Correlative light and electron microscopy procedures have been developed to link fluorescent protein expression with ultrastructural resolution. Here, we present an optimized scanning electron microscopy (SEM) workflow for volumetric array tomography for asymmetric samples and model organisms (Caenorhabditis elegans, Drosophila melanogaster, Danio rerio). We modified a diamond knife to simplify serial section array acquisition with minimal artifacts. After array acquisition, the arrays were transferred to a glass coverslip or silicon wafer support. Using light microscopy, the arrays were screened rapidly for initial recognition of global anatomical features (organs or body traits). Then, using SEM, an in-depth study of the cells and/or organs of interest was performed. Our manual and automatic data acquisition strategies make 3D data acquisition and correlation simpler and more precise than alternative methods. This method can be used to address questions in cell and developmental biology that require the efficient identification of a labeled cell or organelle. |
