FIGURE

Fig. 6

ID

ZDB-FIG-180727-32

Publication

Eno et al., 2018 - Slow calcium waves mediate furrow microtubule reorganization and germ plasm compaction in the early zebrafish embryo

Other Figures

All Figure Page

Back to All Figure Page

Fig. 6

The FMA acts as a calcium-dependent modified midbody. (A-D) EMTB::EGFP transgenic fish. In wild type (A), the FMA initially aligns along the furrow (brackets) and becomes enriched distally (arrowheads). In nebel mutants (B), the FMA is initially normal but bundles in medial furrow regions. In 2-APB-treated wild-type embryos (C), the FMA forms normally but remains aligned along the furrow. During the early cleavage stages of wild-type EMTB::EGFP embryos (D), the FMA forms (bracket) but bundles medially (arrow). Time is in min. (E) Fixed wild-type 64-cell embryos stained for microtubules and for DNA (DAPI), showing inwardly bundling FMAs (arrowhead) and remnants (arrow). Scale bar: 75 μm in E.

Expression Data

Gene:	EGFP
Fish:	hm1Tg nebel^t23/+; hm1Tg (AB)
Condition:	chemical treatment by environment: 2-aminoethoxydiphenylborane
Anatomical Term:	blastomere microtubule
Stage Range:	2-cell to 4-cell

Expression Detail

Antibody Labeling

Phenotype Data

Fish:	hm1Tg nebel^t23/+; hm1Tg (AB)
Condition:	chemical treatment by environment: 2-aminoethoxydiphenylborane
Observed In:	blastomere microtubule
Stage Range:	2-cell to 4-cell

Phenotype Detail

Acknowledgments

This image is the copyrighted work of the attributed author or publisher, and ZFIN has permission only to display this image to its users. Additional permissions should be obtained from the applicable author or publisher of the image. Full text @ Development