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Gene/Clone	Species	Stage	Anatomy Item	Experimenter
dlx5	xenopus		non-neural ectoderm [+] ionocyte,adenohypophyseal placode,hatching gland primordium,Bowman's gland,Eberth-Kastschenko layer,Leydig cell,adenohypophysis,anterior placodal area,dermis,epidermal cell,epidermis,epidermis inner layer,epidermis outer layer,fin crest,frontal nerve,goblet cell,hatching gland cell,ionocyte,keratinocyte,lateral preplacodal ectoderm,lens epithelium,lens fiber cell mass,lens placode,lens transitional zone,mandibular nerve,maxillary nerve,melanotrope,migrating macrophage,mucociliary epithelium,nasociliary nerve,neurohypophysis,neuromast mantle cell,neuromast support cell,olfactory sensory neuron,pars distalis,pars intermedia,pars nervosa,pigment cell,posterior placodal area,skin gland,small secretory cell,stratum compactum,stratum spongiosum,adenohypophysis,cloacal sphincter,cornea,endocrine cell,epidermis,fin margin,hatching gland,hatching gland primordium,hypophysis,lens,lens placode,neurogenic placode,non-neurogenic ectodermal placode,olfactory epithelium,preplacodal ectoderm,proctodeum,skin,trigeminal nerve

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Expression summary for dlx5

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Experiment	Species	Images	Stages	Anatomy	Assay
Harland lab in situ screen Assay Harland Lab	tropicalis	1 image	NF stage 26	dorsal fin margin, hatching gland, otic placode, profundal placode, ventral fin margin	in situ hybridization
Seufert DW et al. (2005) Assay Paper	laevis	1 image	NF stage 26	olfactory placode	in situ hybridization
Harland Lab Assay Harland Lab	tropicalis	2 images	NF stage 17 to NF stage 32	adenohypophyseal placode, dorsal fin margin, epidermis, otic placode, posterior placodal area, [+] ventral fin margin	in situ hybridization
An essential role of Xenopus Foxi1a for ventral specification of the cephalic ectoderm during gastrulation. Paper	laevis	1 image	NF stage 14 to NF stage 15	epidermis	in situ hybridization
Transgenic Xenopus embryos reveal that anterior neural development requires continued suppression of BMP signaling after gast... Paper	laevis	1 image	NF stage 15	anterior placodal area, posterior placodal area	in situ hybridization
Differential distribution of competence for panplacodal and neural crest induction to non-neural and neural ectoderm. Paper	laevis	2 images	NF stage 18	anterior placodal area, non-neural ectoderm	in situ hybridization
ΔNp63 is regulated by BMP4 signaling and is required for early epidermal development in Xenopus. Paper	laevis	1 image	NF stage 17	preplacodal ectoderm	in situ hybridization
Phylogenetic footprinting and genome scanning identify vertebrate BMP response elements and new target genes. Paper	laevis	1 image	NF stage 18 to NF stage 28	anterior placodal area, dorsal fin margin, hatching gland, posterior placodal area, preplacodal ectoderm, [+] ventral fin margin	in situ hybridization
Voigt J et al. (2005) Assay Paper	tropicalis	1 image	NF stage 17	adenohypophyseal placode, posterior placodal area	in situ hybridization
Xenopus Distal-less related homeobox genes are expressed in the developing forebrain and are induced by planar signals. Paper	laevis	1 image	NF stage 20 to NF stage 33 and 34	olfactory placode	in situ hybridization
Misexpression of Polycomb-group proteins in Xenopus alters anterior neural development and represses neural target genes. Paper	laevis	1 image	NF stage 19 to NF stage 26	otic placode	in situ hybridization
Papalopulu N and Kintner C (1993) Assay Paper	laevis	1 image	NF stage 37 and 38	olfactory placode	in situ hybridization
Griffin JN et al. (2015) Assay Paper	tropicalis	1 image	NF stage 28	olfactory placode	in situ hybridization
Pa2G4 is a novel Six1 co-factor that is required for neural crest and otic development. Paper	laevis	1 image	NF stage 28	olfactory placode	in situ hybridization
Differential and overlapping expression patterns of X-dll3 and Pax-6 genes suggest distinct roles in olfactory system develo... Paper	laevis	1 image	NF stage 15 to NF stage 29 and 30	olfactory epithelium	in situ hybridization

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