Search Criteria |
Gene/Clone | Species | Stage | Anatomy Item | Experimenter |
---|---|---|---|---|
tubb2b | xenopus | neural fold [+] |
Too many results?Too few results?
Expression summary for tubb2b
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Experiment | Species | Images | Stages | Anatomy | Assay |
López SL et al. (2003) Assay
Paper |
laevis |
1 image |
NF stage 15 | anterior neural fold | in situ hybridization |
Woda JM et al. (2003) Assay
Paper |
laevis |
1 image |
NF stage 13 | anterior neural fold | in situ hybridization |
Light W et al. (2005) Assay
Paper |
laevis |
1 image |
NF stage 18 | anterior neural fold | in situ hybridization |
Dichmann DS et al. (2008) Assay
Paper |
laevis |
1 image |
NF stage 18 | anterior neural fold | in situ hybridization |
Rodríguez-Seguel E et al. (2009) Assay
Paper |
laevis |
1 image |
NF stage 18 | anterior neural fold | in situ hybridization |
Paper |
laevis |
1 image |
NF stage 17 | anterior neural fold | in situ hybridization |
Paper |
xenopus |
1 image |
NF stage 18 | anterior neural fold | in situ hybridization |
Paper |
xenopus |
1 image |
NF stage 14 | anterior neural fold | in situ hybridization |
Xiro3 encodes a Xenopus homolog of the Drosophila Iroquois genes and functions in neural specification.
Paper |
laevis |
1 image |
NF stage 15 | anterior neural fold | in situ hybridization |
A posteriorising factor, retinoic acid, reveals that anteroposterior patterning controls the timing of neuronal differentiati...
Paper |
laevis |
1 image |
NF stage 16 | neural fold | in situ hybridization |
A posteriorising factor, retinoic acid, reveals that anteroposterior patterning controls the timing of neuronal differentiati...
Paper |
laevis |
1 image |
NF stage 16 to NF stage 25 | neural fold | in situ hybridization |
A posteriorising factor, retinoic acid, reveals that anteroposterior patterning controls the timing of neuronal differentiati...
Paper |
laevis |
1 image |
NF stage 17 | neural fold | in situ hybridization |
Tet3 CXXC Domain and Dioxygenase Activity Cooperatively Regulate Key Genes for Xenopus Eye and Neural Development.
Paper |
laevis |
1 image |
NF stage 14 | neural fold | in situ hybridization |
Xenbase User Curated Experiment
Maya Z Piccinni |
laevis |
1 image |
NF stage 18 | anterior neural fold, neural fold | in situ hybridization |
Oschwald R et al. (1991) Assay
Paper |
laevis |
1 image |
NF stage 17 | neural fold | in situ hybridization |
Regulation of neurogenesis by Fgf8a requires Cdc42 signaling and a novel Cdc42 effector protein.
Paper |
laevis |
1 image |
NF stage 16 to NF stage 18 | neural fold | in situ hybridization |
Regulation of neurogenesis by Fgf8a requires Cdc42 signaling and a novel Cdc42 effector protein.
Paper |
laevis |
1 image |
NF stage 16 | neural fold | in situ hybridization |
XMam1, the Xenopus homologue of mastermind, is essential to primary neurogenesis in Xenopus laevis embryos.
Paper |
laevis |
1 image |
NF stage 14 | neural fold | in situ hybridization |
Wylie LA et al. (2015) Assay
Paper |
laevis |
3 images |
NF stage 18 to NF stage 19 | neural fold | in situ hybridization |
Nieber F et al. (2013) Assay
Paper |
laevis |
1 image |
NF stage 15 | neural fold | in situ hybridization |
Moore KB et al. (2018) Assay
Paper |
laevis |
3 images |
NF stage 14 to NF stage 15 | neural fold | in situ hybridization |
Solini GE et al. (2020) Assay
Paper |
laevis |
2 images |
NF stage 18 | anterior neural fold | in situ hybridization |
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