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Gene/Clone	Species	Stage	Anatomy Item	Experimenter
aldh1a2	xenopus		optic vesicle [+] pigment layer,retinal layer,Muller cell,amacrine cell,bipolar neuron,central retina,choroid,choroid fissure,ciliary body,ciliary marginal zone,conjunctiva,cornea,eye photoreceptor cell,globe,horizontal cell,inner limiting membrane,iris,lens,lens epithelium,lens fiber cell mass,lens placode,lens transitional zone,lower eyelid,optic disc,optic fiber layer,optic nerve,outer limiting membrane,peripheral retina,photoreceptor layer,pupil,retina,retinal ganglion cell,retinal ganglion cell layer,retinal inner nuclear layer,retinal inner plexiform layer,retinal neural layer,retinal outer nuclear layer,retinal outer plexiform layer,retinal pigmented epithelium,retinal progenitor cell,retinal progenitor cell region,retinal stem cell,retinal stem cell region,sclera,choroid fissure,eye,iris,optic nerve,optic stalk,retinal neural layer

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Expression summary for aldh1a2

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Experiment	Species	Images	Stages	Anatomy	Assay
AxelDB CNRS UMR 8080	laevis	1 image	NF stage 29 and 30	eye, lens placode	in situ hybridization
Lupo G et al. (2005) Assay Paper	xenopus	2 images	NF stage 17 to NF stage 33 and 34	optic stalk, optic vesicle, retina	in situ hybridization
Andreazzoli M et al. (2003) Assay Paper	xenopus	1 image	NF stage 13	optic vesicle	in situ hybridization
Strate I et al. (2009) Assay Paper	laevis	1 image	NF stage 22 to NF stage 32	eye	in situ hybridization
Increased XRALDH2 activity has a posteriorizing effect on the central nervous system of Xenopus embryos. Paper	laevis	1 image	NF stage 16 to NF stage 35 and 36	ciliary marginal zone, optic vesicle, retina, retinal pigmented epithelium	in situ hybridization
Analysis of the expression of retinoic acid metabolising genes during Xenopus laevis organogenesis. Paper	laevis	1 image	NF stage 28 to NF stage 33 and 34	eye, retina	in situ hybridization
Clone: pXRALDH2 derived probe in situ hybridization European Xenopus Resource Centre (EXRC)	laevis	2 images	NF stage 29 and 30 to NF stage 33 and 34	eye	in situ hybridization
Fgf is required to regulate anterior-posterior patterning in the Xenopus lateral plate mesoderm. Paper	laevis	1 image	NF stage 18 to NF stage 20	optic vesicle	in situ hybridization
Increased XRALDH2 activity has a posteriorizing effect on the central nervous system of Xenopus embryos. Paper	laevis	1 image	NF stage 35 and 36	retina, retinal pigmented epithelium	in situ hybridization
Rankin SA et al. (2012) Assay Paper	laevis	4 images	NF stage 33 and 34 to NF stage 35 and 36	eye, lens, retina	in situ hybridization
Kam RK et al. (2013) Assay Paper	laevis	1 image	NF stage 35 and 36	eye	in situ hybridization
Kennedy AE and Dickinson AJ (2012) Assay Paper	laevis	1 image	NF stage 24 to NF stage 28	eye	in situ hybridization
A Retinoic Acid-Hedgehog Cascade Coordinates Mesoderm-Inducing Signals and Endoderm Competence during Lung Specification. Paper	laevis	1 image	NF stage 35 and 36	eye	in situ hybridization
Timing is everything: Reiterative Wnt, BMP and RA signaling regulate developmental competence during endoderm organogenesis. Paper	laevis	2 images	NF stage 25 to NF stage 33 and 34	lens, optic vesicle	in situ hybridization
A Retinoic Acid-Hedgehog Cascade Coordinates Mesoderm-Inducing Signals and Endoderm Competence during Lung Specification. Paper	laevis	1 image	NF stage 33 and 34	eye, lens, retina	in situ hybridization
A Retinoic Acid-Hedgehog Cascade Coordinates Mesoderm-Inducing Signals and Endoderm Competence during Lung Specification. Paper	laevis	1 image	NF stage 33 and 34	eye	in situ hybridization

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