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fgf8xenopus ectoderm [+] 

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Expression summary for fgf8

Results 1 - 50 of 60 results

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Experiment Species Images Stages Anatomy Assay
Harland lab in situ screen Assay

Harland lab in situ screen
tropicalis
1 image
NF stage 32 midbrain-hindbrain boundary, optic vesicle, otic vesicle in situ hybridization
Harland lab in situ screen Assay

Harland lab in situ screen
tropicalis
1 image
NF stage 23 brain, cranial neural crest, midbrain-hindbrain boundary in situ hybridization
Lea R et al. (2009) Assay

Paper
tropicalis
5 images
NF stage 15 to NF stage 40 anterior neural ridge, anterior placodal area, chordoneural hinge, cranial neural crest, eye, [+] in situ hybridization
Hong CS et al. (2008) Assay

Paper
laevis
1 image
NF stage 12.5 ectoderm, neural crest in situ hybridization
Ermakova GV et al. (2007) Assay

Paper
laevis
1 image
NF stage 14 neural groove, neural plate, neural tube, neuroectoderm in situ hybridization
Shiotsugu J et al. (2004) Assay

Paper
laevis
1 image
NF stage 18 anterior neural fold, neural plate, neural tube, neuroectoderm in situ hybridization
Lupo G et al. (2005) Assay

Paper
xenopus
2 images
NF stage 17 to NF stage 33 and 34 anterior neural fold, ectoderm, epibranchial placode, midbrain-hindbrain boundary, neural tube, [+] in situ hybridization
Galli A et al. (2003) Assay

Paper
laevis
1 image
NF stage 17 anterior neural fold, anterior neural ridge, midbrain-hindbrain boundary, neuroectoderm in situ hybridization
Lin G and Slack JM (2008) Assay

Paper
laevis
1 image
NF stage 48 to NF stage 50 fin in situ hybridization
Amaya Lab Assay

Xenbase Image
tropicalis
1 image
NF stage 28 forebrain, midbrain-hindbrain boundary, otic vesicle, tail bud in situ hybridization
Gessert S and Kühl M (2009) Assay

Paper
laevis
2 images
NF stage 13 to NF stage 29 and 30 anterior neural fold, cranial neural crest, midbrain-hindbrain boundary, neuroectoderm in situ hybridization


Paper
laevis
1 image
NF stage 17 to NF stage 18 anterior neural fold, midbrain-hindbrain boundary, neural plate in situ hybridization


Paper
laevis
1 image
NF stage 14 to NF stage 18 neural plate in situ hybridization
The secreted serine protease xHtrA1 stimulates long-range FGF signaling in the early Xenopus embryo.

Paper
laevis
1 image
NF stage 14 to NF stage 26 anterior branchial crest, anterior neural fold, brain, forebrain, midbrain-hindbrain boundary, [+] in situ hybridization
Conserved cross-interactions in Drosophila and Xenopus between Ras/MAPK signaling and the dual-specificity phosphatase MKP3.

Paper
laevis
1 image
NF stage 14 anterior placodal area, ectoderm, midbrain-hindbrain boundary, neuroectoderm in situ hybridization
Olfactory and lens placode formation is controlled by the hedgehog-interacting protein (Xhip) in Xenopus.

Paper
laevis
1 image
NF stage 17 anterior neural fold, midbrain-hindbrain boundary, neural plate, neuroectoderm in situ hybridization
Expression patterns of Xenopus FGF receptor-like 1/nou-darake in early Xenopus development resemble those of planarian nou-da...

Paper
laevis
1 image
NF stage 17 to NF stage 22 anterior neural ridge, forebrain, midbrain-hindbrain boundary, otic placode in situ hybridization
Expression patterns of Xenopus FGF receptor-like 1/nou-darake in early Xenopus development resemble those of planarian nou-da...

Paper
laevis
1 image
NF stage 26 to NF stage 33 and 34 ciliary marginal zone, forebrain, midbrain-hindbrain boundary, otic placode, otic vesicle, [+] in situ hybridization
Autoregulation of canonical Wnt signaling controls midbrain development.

Paper
laevis
1 image
NF stage 29 and 30 midbrain-hindbrain boundary in situ hybridization
Otx2 can activate the isthmic organizer genetic network in the Xenopus embryo.

Paper
laevis
1 image
NF stage 23 midbrain-hindbrain boundary, neural crest, neuroectoderm in situ hybridization
Isthmin is a novel secreted protein expressed as part of the Fgf-8 synexpression group in the Xenopus midbrain-hindbrain orga...

Paper
laevis
1 image
NF stage 20 to NF stage 29 and 30 brain, cranial neural crest, diencephalon, forebrain, midbrain-hindbrain boundary, [+] in situ hybridization
Early patterning of the prospective midbrain-hindbrain boundary by the HES-related gene XHR1 in Xenopus embryos.

Paper
laevis
1 image
NF stage 35 and 36 to NF stage 37 and 38 eye, forebrain, midbrain, midbrain-hindbrain boundary, neuroectoderm, [+] in situ hybridization
Paraxial T-box genes, Tbx6 and Tbx1, are required for cranial chondrogenesis and myogenesis.

Paper
laevis
1 image
NF stage 14 anterior neural fold, neural crest in situ hybridization
The homeodomain factor Xanf represses expression of genes in the presumptive rostral forebrain that specify more caudal brain...

Paper
laevis
1 image
NF stage 14 anterior neural fold, neural plate, neural tube, neuroectoderm in situ hybridization
FGF-8 is associated with anteroposterior patterning and limb regeneration in Xenopus.

Paper
laevis
1 image
NF stage 14 to NF stage 33 and 34 anterior branchial crest, chordoneural hinge, cranial neural crest, ectoderm, forebrain, [+] in situ hybridization
Intercalary and supernumerary regeneration in the limbs of the frog, Xenopus laevis.

Paper
laevis
1 image
NF stage 52 to NF stage 56 epidermis, epidermis outer layer in situ hybridization
Characterisation of a new regulator of BDNF signalling, Sprouty3, involved in axonal morphogenesis in vivo.

Paper
tropicalis
1 image
NF stage 28 forebrain, midbrain-hindbrain boundary, otic vesicle, stomodeal-hypophyseal primordium, tail bud in situ hybridization
Expression patterns of Xenopus FGF receptor-like 1/nou-darake in early Xenopus development resemble those of planarian nou-da...

Paper
laevis
1 image
NF stage 26 to NF stage 29 and 30 cranial neural crest, forebrain, midbrain-hindbrain boundary, neuroectoderm, otic vesicle, [+] in situ hybridization
Expression patterns of Xenopus FGF receptor-like 1/nou-darake in early Xenopus development resemble those of planarian nou-da...

Paper
laevis
1 image
NF stage 33 and 34 brain, eye, forebrain, midbrain-hindbrain boundary, otic vesicle, [+] in situ hybridization
Different requirement for Wnt/β-catenin signaling in limb regeneration of larval and adult Xenopus.

Paper
laevis
1 image
NF stage 64 dermis, epidermis in situ hybridization
Nerve-independence of limb regeneration in larval Xenopus laevis is correlated to the level of fgf-2 mRNA expression in limb ...

Paper
laevis
1 image
NF stage 52 epidermis in situ hybridization
FGF-8 is associated with anteroposterior patterning and limb regeneration in Xenopus.

Paper
laevis
1 image
NF stage 50 to NF stage 52 epidermis, epidermis inner layer in situ hybridization
FGF-8 is associated with anteroposterior patterning and limb regeneration in Xenopus.

Paper
laevis
1 image
NF stage 50 to NF stage 55 epidermis in situ hybridization
Fgf is required to regulate anterior-posterior patterning in the Xenopus lateral plate mesoderm.

Paper
laevis
3 images
NF stage 17 to NF stage 20 adenohypophyseal placode, anterior neural ridge, neural plate border, neural tube, neuroectoderm, [+] in situ hybridization
RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm.

Paper
laevis
1 image
NF stage 18 neural groove, preplacodal ectoderm in situ hybridization
RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm.

Paper
laevis
1 image
NF stage 18 neural groove, preplacodal ectoderm in situ hybridization
RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm.

Paper
laevis
1 image
NF stage 18 anterior neural ridge, preplacodal ectoderm in situ hybridization
RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm.

Paper
laevis
1 image
NF stage 18 anterior neural ridge, preplacodal ectoderm in situ hybridization
RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm.

Paper
laevis
1 image
NF stage 18 anterior neural ridge, preplacodal ectoderm in situ hybridization
RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm.

Paper
laevis
1 image
NF stage 18 anterior neural ridge, preplacodal ectoderm in situ hybridization
The homeoprotein Xiro1 is required for midbrain-hindbrain boundary formation.

Paper
laevis
1 image
NF stage 13 to NF stage 14 midbrain-hindbrain boundary in situ hybridization
The homeoprotein Xiro1 is required for midbrain-hindbrain boundary formation.

Paper
laevis
1 image
NF stage 17 anterior neural ridge, midbrain-hindbrain boundary in situ hybridization
The homeoprotein Xiro1 is required for midbrain-hindbrain boundary formation.

Paper
laevis
1 image
NF stage 17 midbrain-hindbrain boundary in situ hybridization
The homeoprotein Xiro1 is required for midbrain-hindbrain boundary formation.

Paper
laevis
1 image
NF stage 18 anterior neural fold, anterior neural ridge in situ hybridization
Neural crest migration requires the activity of the extracellular sulphatases XtSulf1 and XtSulf2.

Paper
tropicalis
1 image
NF stage 22 to NF stage 40 anterior branchial crest, brain, cranial neural crest, hatching gland, hyoid crest, [+] in situ hybridization
Tissues and signals involved in the induction of placodal Six1 expression in Xenopus laevis.

Paper
laevis
1 image
NF stage 11.5 to NF stage 12.5 anterior neural ridge, pre-chordal neural plate border, preplacodal ectoderm immunohistochemistry
Tissues and signals involved in the induction of placodal Six1 expression in Xenopus laevis.

Paper
laevis
1 image
NF stage 11.5 to NF stage 12.5 anterior neural ridge, ectoderm, pre-chordal neural plate, preplacodal ectoderm in situ hybridization
Tissues and signals involved in the induction of placodal Six1 expression in Xenopus laevis.

Paper
laevis
1 image
NF stage 13 anterior neural ridge, preplacodal ectoderm in situ hybridization
Conserved roles for Oct4 homologues in maintaining multipotency during early vertebrate development.

Paper
laevis
1 image
NF stage 16 anterior neural ridge in situ hybridization
Ras-dva1 small GTPase regulates telencephalon development in Xenopus laevis embryos by controlling Fgf8 and Agr signaling at...

Paper
laevis
4 images
NF stage 15 to NF stage 16 anterior neural fold, anterior neural ridge, ectoderm, preplacodal ectoderm, sensorial layer in situ hybridization

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