Papers associated with whole organism (and ptch1)

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	Cilia-localized GID/CTLH ubiquitin ligase complex regulates protein homeostasis of sonic hedgehog signaling components., Hantel F., J Cell Sci. May 1, 2022; 135 (9):
	Zic5 stabilizes Gli3 via a non-transcriptional mechanism during retinal development., Sun J., Cell Rep. February 1, 2022; 38 (5): 110312.
	Ttc30a affects tubulin modifications in a model for ciliary chondrodysplasia with polycystic kidney disease., Getwan M., Proc Natl Acad Sci U S A. September 28, 2021; 118 (39):
	DLG5 variants are associated with multiple congenital anomalies including ciliopathy phenotypes., Marquez J., J Med Genet. July 1, 2021; 58 (7): 453-464.
	A temporally resolved transcriptome for developing "Keller" explants of the Xenopus laevis dorsal marginal zone., Kakebeen AD., Dev Dyn. May 1, 2021; 250 (5): 717-731.
	Thyroid hormone-induced expression of Foxl1 in subepithelial fibroblasts correlates with adult stem cell development during Xenopus intestinal remodeling., Hasebe T., Sci Rep. November 26, 2020; 10 (1): 20715.
	TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis., Chen M., Elife. September 14, 2020; 9
	Smoothened stimulation by membrane sterols drives Hedgehog pathway activity., Deshpande I., Nature. July 1, 2019; 571 (7764): 284-288.
	Gli2 is required for the induction and migration of Xenopus laevis neural crest., Cerrizuela S., Mech Dev. December 1, 2018; 154 219-239.
	Divergent axial morphogenesis and early shh expression in vertebrate prospective floor plate., Kremnyov S., Evodevo. January 31, 2018; 9 4.
	Transcriptome analysis identifies genes involved in sex determination and development of Xenopus laevis gonads., Piprek RP., Differentiation. January 1, 2018; 100 46-56.
	Sonic hedgehog antagonists reduce size and alter patterning of the frog inner ear., Zarei S., Dev Neurobiol. December 1, 2017; 77 (12): 1385-1400.
	hmmr mediates anterior neural tube closure and morphogenesis in the frog Xenopus., Prager A., Dev Biol. October 1, 2017; 430 (1): 188-201.
	Genome-wide identification of thyroid hormone receptor targets in the remodeling intestine during Xenopus tropicalis metamorphosis., Fu L., Sci Rep. July 25, 2017; 7 (1): 6414.
	High variability of expression profiles of homeologous genes for Wnt, Hh, Notch, and Hippo signaling pathways in Xenopus laevis., Michiue T., Dev Biol. June 15, 2017; 426 (2): 270-290.
	Members of the Rusc protein family interact with Sufu and inhibit vertebrate Hedgehog signaling., Jin Z., Development. November 1, 2016; 143 (21): 3944-3955.
	Genome evolution in the allotetraploid frog Xenopus laevis., Session AM., Nature. October 20, 2016; 538 (7625): 336-343.
	Hedgehog-dependent E3-ligase Midline1 regulates ubiquitin-mediated proteasomal degradation of Pax6 during visual system development., Pfirrmann T., Proc Natl Acad Sci U S A. September 6, 2016; 113 (36): 10103-8.
	A Retinoic Acid-Hedgehog Cascade Coordinates Mesoderm-Inducing Signals and Endoderm Competence during Lung Specification., Rankin SA, Rankin SA., Cell Rep. June 28, 2016; 16 (1): 66-78.
	ATP4 and ciliation in the neuroectoderm and endoderm of Xenopus embryos and tadpoles., Walentek P., Data Brief. April 20, 2015; 4 22-31.
	Spatiotemporal integration of developmental cues in neural development., Borodinsky LN., Dev Neurobiol. April 1, 2015; 75 (4): 349-59.
	Inversion of Sonic hedgehog action on its canonical pathway by electrical activity., Belgacem YH., Proc Natl Acad Sci U S A. March 31, 2015; 112 (13): 4140-5.
	Early development of the neural plate: new roles for apoptosis and for one of its main effectors caspase-3., Juraver-Geslin HA., Genesis. February 1, 2015; 53 (2): 203-24.
	Chibby functions in Xenopus ciliary assembly, embryonic development, and the regulation of gene expression., Shi J., Dev Biol. November 15, 2014; 395 (2): 287-98.
	The chicken left right organizer has nonmotile cilia which are lost in a stage-dependent manner in the talpid(3) ciliopathy., Stephen LA., Genesis. June 1, 2014; 52 (6): 600-13.
	Gli protein activity is controlled by multisite phosphorylation in vertebrate Hedgehog signaling., Niewiadomski P., Cell Rep. January 16, 2014; 6 (1): 168-81.
	Stabilization of speckle-type POZ protein (Spop) by Daz interacting protein 1 (Dzip1) is essential for Gli turnover and the proper output of Hedgehog signaling., Schwend T., J Biol Chem. November 8, 2013; 288 (45): 32809-32820.
	Uncoupling VEGFA functions in arteriogenesis and hematopoietic stem cell specification., Leung A., Dev Cell. January 28, 2013; 24 (2): 144-58.
	Hes4 controls proliferative properties of neural stem cells during retinal ontogenesis., El Yakoubi W., Stem Cells. December 1, 2012; 30 (12): 2784-95.
	Antagonistic cross-regulation between Wnt and Hedgehog signalling pathways controls post-embryonic retinal proliferation., Borday C., Development. October 1, 2012; 139 (19): 3499-509.
	Indian hedgehog signaling is required for proper formation, maintenance and migration of Xenopus neural crest., Agüero TH., Dev Biol. April 15, 2012; 364 (2): 99-113.
	Thyroid hormone-induced sonic hedgehog signal up-regulates its own pathway in a paracrine manner in the Xenopus laevis intestine during metamorphosis., Hasebe T., Dev Dyn. February 1, 2012; 241 (2): 403-14.
	Functional clustering drives encoding improvement in a developing brain network during awake visual learning., Podgorski K., PLoS Biol. January 1, 2012; 10 (1): e1001236.
	ZFP932 suppresses cellular Hedgehog response and Patched1 transcription., Huang GJ., Vitam Horm. January 1, 2012; 88 309-32.
	The dual regulator Sufu integrates Hedgehog and Wnt signals in the early Xenopus embryo., Min TH., Dev Biol. October 1, 2011; 358 (1): 262-76.
	Hedgehog signaling regulates size of the dorsal aortae and density of the plexus during avian vascular development., Moran CM., Dev Dyn. June 1, 2011; 240 (6): 1354-64.
	MIM regulates vertebrate neural tube closure., Liu W., Development. May 1, 2011; 138 (10): 2035-47.
	A revised model of Xenopus dorsal midline development: differential and separable requirements for Notch and Shh signaling., Peyrot SM., Dev Biol. April 15, 2011; 352 (2): 254-66.
	Sonic hedgehog signaling is decoded by calcium spike activity in the developing spinal cord., Belgacem YH., Proc Natl Acad Sci U S A. March 15, 2011; 108 (11): 4482-7.
	A mammalian neural tissue opsin (Opsin 5) is a deep brain photoreceptor in birds., Nakane Y., Proc Natl Acad Sci U S A. August 24, 2010; 107 (34): 15264-8.
	In vivo spike-timing-dependent plasticity in the optic tectum of Xenopus laevis., Richards BA., Front Synaptic Neurosci. June 10, 2010; 2 7.
	Mad is required for wingless signaling in wing development and segment patterning in Drosophila., Eivers E., PLoS One. August 6, 2009; 4 (8): e6543.
	A dual requirement for Iroquois genes during Xenopus kidney development., Alarcón P., Development. October 1, 2008; 135 (19): 3197-207.
	Correlation between Shh expression and DNA methylation status of the limb-specific Shh enhancer region during limb regeneration in amphibians., Yakushiji N., Dev Biol. December 1, 2007; 312 (1): 171-82.
	Hedgehog signaling regulates the amount of hypaxial muscle development during Xenopus myogenesis., Martin BL., Dev Biol. April 15, 2007; 304 (2): 722-34.
	Negative regulation of Hedgehog signaling by the cholesterogenic enzyme 7-dehydrocholesterol reductase., Koide T., Development. June 1, 2006; 133 (12): 2395-405.
	Expression profile of Xenopus banded hedgehog, a homolog of mouse Indian hedgehog, is related to the late development of endochondral ossification in Xenopus laevis., Moriishi T., Biochem Biophys Res Commun. March 25, 2005; 328 (4): 867-73.
	Olfactory and lens placode formation is controlled by the hedgehog-interacting protein (Xhip) in Xenopus., Cornesse Y., Dev Biol. January 15, 2005; 277 (2): 296-315.
	Noggin inhibits chondrogenic but not osteogenic differentiation in mesodermal stem cell line C1 and skeletal cells., Nifuji A., Endocrinology. July 1, 2004; 145 (7): 3434-42.
	A restrictive role for Hedgehog signalling during otic specification in Xenopus., Koebernick K., Dev Biol. August 15, 2003; 260 (2): 325-38.

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