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Gene/CloneSpeciesStageAnatomy ItemExperimenter
tbxtxenopus ectoderm [+] 

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Expression summary for tbxt

Results 1 - 22 of 22 results

Page(s): 1

Experiment Species Images Stages Anatomy Assay
XDB3

XDB3
laevis
8 images
NF stage 22 to NF stage 32 chordoneural hinge, ectoderm, eye, forebrain, hindbrain, [+] in situ hybridization
XDB3 Assay

XDB3
xenopus
1 image
NF stage 20 ectoderm in situ hybridization
AxelDB

CNRS UMR 8080
laevis
3 images
NF stage 29 and 30 chordoneural hinge, tail bud in situ hybridization
Fletcher RB and Harland RM (2008) Assay

Paper
xenopus
1 image
NF stage 18 neural groove in situ hybridization
Galli A et al. (2003) Assay

Paper
laevis
1 image
NF stage 12 notoplate in situ hybridization
Smith TGas116l23 Assay

Smith Lab
laevis
1 image
NF stage 40 chordoneural hinge in situ hybridization


Paper
laevis
1 image
NF stage 11 non-involuting marginal zone in situ hybridization


Paper
xenopus
1 image
NF stage 17 anterior neural fold in situ hybridization


Paper
xenopus
1 image
NF stage 11 neural plate in situ hybridization
Xwnt11 is a target of Xenopus Brachyury: regulation of gastrulation movements via Dishevelled, but not through the canonical ...

Paper
laevis
1 image
NF stage 14 anterior neural fold in situ hybridization
Cloning and spatiotemporal expression of RIC-8 in Xenopus embryogenesis.

Paper
tropicalis
1 image
NF stage 15 anterior neural fold, neural groove, neural tube, neuroectoderm in situ hybridization
Molecular pathways needed for regeneration of spinal cord and muscle in a vertebrate.

Paper
laevis
1 image
NF stage 29 and 30 tail bud in situ hybridization
Fgf is required to regulate anterior-posterior patterning in the Xenopus lateral plate mesoderm.

Paper
laevis
1 image
NF stage 20 posterior neural tube in situ hybridization
Cast AE et al. (2012) Assay

Paper
laevis
1 image
NF stage 33 and 34 eye, otic vesicle in situ hybridization
The initiation of Hox gene expression in Xenopus laevis is controlled by Brachyury and BMP-4.

Paper
laevis
1 image
NF stage 10.5 to NF stage 12.5 non-involuting marginal zone in situ hybridization
Tail formation as a continuation of gastrulation: the multiple cell populations of the Xenopus tailbud derive from the late ...

Paper
laevis
1 image
NF stage 23 to NF stage 31 chordoneural hinge, tail bud in situ hybridization
Tail formation as a continuation of gastrulation: the multiple cell populations of the Xenopus tailbud derive from the late ...

Paper
laevis
1 image
NF stage 23 to NF stage 31 chordoneural hinge, posterior wall of neurenteric canal, roof plate, spinal cord, tail bud in situ hybridization
The Toll/IL-1 receptor binding protein MyD88 is required for Xenopus axis formation.

Paper
laevis
1 image
NF stage 10 non-involuting marginal zone in situ hybridization
Analysis of the developing Xenopus tail bud reveals separate phases of gene expression during determination and outgrowth.

Paper
laevis
1 image
NF stage 29 and 30 chordoneural hinge, posterior wall of neurenteric canal, tail bud in situ hybridization
Beck CW and Slack JM (1998) Assay

Paper
laevis
3 images
NF stage 29 and 30 chordoneural hinge, posterior wall of neurenteric canal, tail bud in situ hybridization
Gawantka V et al. (1998) Assay

Paper
laevis
2 images
NF stage 10.5 to NF stage 29 and 30 tail bud in situ hybridization
Lineage commitment of embryonic cells involves MEK1-dependent clearance of pluripotency regulator Ventx2.

Paper
laevis
1 image
NF stage 13 neural groove in situ hybridization

Page(s): 1

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