Time-Lapse Microscopy

Early Zebrafish embryonic development (h2afva labeling)

Early Zebrafish embryonic development, slower rotation, different color (h2afva labeling)

Spatiotemporally adaptive imaging of Drosophila embryonic development.

21-h time-lapse experiment using spatiotemporally adaptive imaging. Dorsoventral maximum-intensity projections of a D. melanogaster embryo expressing RFP in all cell nuclei (w;His2Av-mRFP1;+). Two views correspond to two sliced renderings of the dorsal and ventral sides.

Spatiotemporally adaptive imaging of dynamic gene expression patterns

Dorsoventral maximum-intensity projections of a D. melanogaster embryo expressing RFP in all cell nuclei and GFP in the nervous system (deadpanEE–Gal4, UAS–myr::GFP, His2Av–RFP), representing a 20-h time-lapse experiment using spatiotemporally adaptive imaging

Spatiotemporally adaptive imaging of Drosophila embryonic development

21-h time-lapse experiment using spatiotemporally adaptive imaging. Dorsoventral maximum-intensity projections of a D. melanogaster embryo expressing RFP in all cell nuclei (w;His2Av-mRFP1;+)

Spatiotemporally adaptive whole-brain functional imaging in larval zebrafish Tg(elavl3:GCaMP6f)

Adaptive light-sheet microscopy for long-term, high-resolution imaging in living organisms Loïc A Royer, William C Lemon, Raghav K Chhetri, Yinan Wan, Michael Coleman, Eugene Myers & Philipp J Keller http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.3708.html

Adaptive light-sheet microscope adapting to a growing mouse embryo

In Toto Imaging and Reconstruction of Post-Implantation Mouse Development at the Single-Cell Level Katie McDole, Léo Guignard, Fernando Amat, Andrew Berger, Grégoire Malandain, Loïc A. Royer, Srinivas C. Turaga, Kristin Branson, Philipp J. Keller https://www.cell.com/cell/pdf/S0092-8674(18)31243-1.pdf

First cell divisions of a C. elegans embryo (HisGFP & BTubGFP)