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Search Criteria

Gene/Clone	Species	Stage	Anatomy Item	Experimenter
tubb2b	xenopus		hindbrain [+] cerebellum,fourth ventricle,medulla oblongata,rhombomere,rhombic lip,dorsal column nucleus,granule cell,granule cell layer of the cerebellum,locus coeruleus,raphe nucleus,solitary tract,Mauthner cell,nucleus of the solitary tract,nucleus reticularis medialis,nucleus reticularis superior,nucleus reticularis inferior

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Expression summary for tubb2b

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Experiment	Species	Images	Stages	Anatomy	Assay
Dibner C et al. (2001) Assay Paper	laevis	1 image	NF stage 21	rhombomere R2	in situ hybridization
Klisch TJ et al. (2006) Assay Paper	laevis	1 image	NF stage 24	hindbrain	in situ hybridization
Schlosser G et al. (2008) Assay Paper	laevis	4 images	NF stage 26	hindbrain	in situ hybridization
Cholesterol homeostasis in development: the role of Xenopus 7-dehydrocholesterol reductase (Xdhcr7) in neural development. Paper	laevis	1 image	NF stage 33 and 34	hindbrain	in situ hybridization
Maldonado-Agurto R et al. (2011) Assay Paper	tropicalis	1 image	NF stage 35 and 36 to NF stage 42	hindbrain	in situ hybridization
Retinoic acid can block differentiation of the myocardium after heart specification. Paper	laevis	1 image	NF stage 33 and 34	hindbrain	in situ hybridization
A posteriorising factor, retinoic acid, reveals that anteroposterior patterning controls the timing of neuronal differentiati... Paper	laevis	1 image	NF stage 31	hindbrain	in situ hybridization
Expression and regulation of Xenopus CRMP-4 in the developing nervous system. Paper	laevis	1 image	NF stage 27	hindbrain	in situ hybridization
A hindbrain-repressive Wnt3a/Meis3/Tsh1 circuit promotes neuronal differentiation and coordinates tissue maturation. Paper	laevis	1 image	NF stage 16	hindbrain	in situ hybridization
Nitta KR et al. (2004) Assay Paper	laevis	2 images	NF stage 25 to NF stage 28	hindbrain	in situ hybridization
Burns CJ and Vetter ML (2002) Assay Paper	laevis	1 image	NF stage 35 and 36	hindbrain	in situ hybridization
Hutcheson DA and Vetter ML (2001) Assay Paper	laevis	1 image	NF stage 28	hindbrain	in situ hybridization
Chordin is required for the Spemann organizer transplantation phenomenon in Xenopus embryos. Paper	laevis	1 image	NF stage 25	hindbrain	in situ hybridization
Oschwald R et al. (1991) Assay Paper	laevis	1 image	NF stage 37 and 38	hindbrain	in situ hybridization
The role of vertical and planar signals during the early steps of neural induction. Paper	laevis	1 image	NF stage 28	hindbrain	in situ hybridization
Bao J et al. (2000) Assay Paper	laevis	2 images	NF stage 25	hindbrain	in situ hybridization
Ghimouz R et al. (2011) Assay Paper	laevis	1 image	NF stage 20	hindbrain	in situ hybridization
Nieber F et al. (2013) Assay Paper	laevis	1 image	NF stage 15 to NF stage 26	hindbrain	in situ hybridization
Zhang S et al. (2016) Assay Paper	laevis	1 image	NF stage 29 and 30	hindbrain	in situ hybridization
FoxA4 favours notochord formation by inhibiting contiguous mesodermal fates and restricts anterior neural development in Xen... Paper	laevis	1 image	NF stage 27 to NF stage 28	hindbrain	in situ hybridization
FoxA4 favours notochord formation by inhibiting contiguous mesodermal fates and restricts anterior neural development in Xen... Paper	laevis	1 image	NF stage 27 to NF stage 28	hindbrain	in situ hybridization
Gene expression of the two developmentally regulated dermatan sulfate epimerases in the Xenopus embryo. Paper	laevis	1 image	NF stage 33 and 34	hindbrain	in situ hybridization
Six1 and Eya1 both promote and arrest neuronal differentiation by activating multiple Notch pathway genes. Paper	laevis	1 image	NF stage 26 to NF stage 31	hindbrain	in situ hybridization
Solini GE et al. (2020) Assay Paper	laevis	2 images	NF stage 28 to NF stage 37 and 38	hindbrain	in situ hybridization

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