FIGURE

Fig. 3

ID

ZDB-FIG-111025-21

Publication

Madelaine et al., 2011 - Partially redundant proneural function reveals the importance of timing during zebrafish olfactory neurogenesis

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Fig. 3

The last S-phase of early-born olfactory neurons is delayed in the neurog1 mutant zebrafish. (A-F) Confocal sections of olfactory placodes immunolabelled for BrdU (red) and GFP (green) from the Tg(8.4neurog1:GFP) transgene in wild-type (A-C) or neurog1 mutant (D-F) embryos at 24 hpf (A,B,D,E) or 28 hpf (C,F). The stages at which BrdU incubation were started is indicated. Scale bars: 10 μM. (G) The proportion BrdU+;GFP+ cells over total number of GFP+ cells in the olfactory placode after BrdU treatment in wild-type (green line) or neurog1 mutant (red line) embryos. Although early-born olfactory neurons generally leave the cell cycle later in mutant than in wild-type embryos, at 24 hpf few, if any, early-born olfactory neurons are still cycling in either genetic context. Error bars represent s.d.

Expression Data

Gene:	GFP
Fish:	sb1Tg neurog1^{hi1059Tg/hi1059Tg}; sb1Tg
Anatomical Terms:	olfactory placode olfactory placode pioneer neuron
Stage Range:	14-19 somites to Prim-5

Expression Detail

Antibody Labeling

Phenotype Data

Fish:	neurog1^{hi1059Tg/hi1059Tg}; sb1Tg
Observed In:	regulation of cell cycle
Stage Range:	14-19 somites to Prim-5

Phenotype Detail

Acknowledgments

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