Papers associated with sensory system (and eya1)

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	In vitro modeling of cranial placode differentiation: Recent advances, challenges, and perspectives., Griffin C., Dev Biol. February 1, 2024; 506 20-30.
	Using Xenopus to discover new candidate genes involved in BOR and other congenital hearing loss syndromes., Neal SJ., J Exp Zool B Mol Dev Evol. October 13, 2023;
	Xenopus Dusp6 modulates FGF signaling to precisely pattern pre-placodal ectoderm., Tsukano K., Dev Biol. August 1, 2022; 488 81-90.
	Sobp modulates the transcriptional activation of Six1 target genes and is required during craniofacial development., Tavares ALP., Development. September 1, 2021; 148 (17):
	Molecular mechanisms of hearing loss in Nager syndrome., Maharana SK., Dev Biol. August 1, 2021; 476 200-208.
	Otic Neurogenesis in Xenopus laevis: Proliferation, Differentiation, and the Role of Eya1., Almasoudi SH., Front Neuroanat. January 1, 2021; 15 722374.
	Maximizing CRISPR/Cas9 phenotype penetrance applying predictive modeling of editing outcomes in Xenopus and zebrafish embryos., Naert T., Sci Rep. September 4, 2020; 10 (1): 14662.
	Six1 proteins with human branchio-oto-renal mutations differentially affect cranial gene expression and otic development., Shah AM., Dis Model Mech. March 3, 2020; 13 (3):
	Znf703 is a novel RA target in the neural plate border., Janesick A., Sci Rep. June 4, 2019; 9 (1): 8275.
	A Critical E-box in Barhl1 3' Enhancer Is Essential for Auditory Hair Cell Differentiation., Hou K., Cells. May 15, 2019; 8 (5):
	Six1 and Irx1 have reciprocal interactions during cranial placode and otic vesicle formation., Sullivan CH., Dev Biol. February 1, 2019; 446 (1): 68-79.
	Fam46a regulates BMP-dependent pre-placodal ectoderm differentiation in Xenopus., Watanabe T., Development. October 26, 2018; 145 (20):
	Pa2G4 is a novel Six1 co-factor that is required for neural crest and otic development., Neilson KM., Dev Biol. January 15, 2017; 421 (2): 171-182.
	Dissecting the pre-placodal transcriptome to reveal presumptive direct targets of Six1 and Eya1 in cranial placodes., Riddiford N., Elife. August 31, 2016; 5
	The emergence of Pax7-expressing muscle stem cells during vertebrate head muscle development., Nogueira JM., Front Aging Neurosci. May 19, 2015; 7 62.
	Opportunities and limits of the one gene approach: the ability of Atoh1 to differentiate and maintain hair cells depends on the molecular context., Jahan I., Front Cell Neurosci. February 5, 2015; 9 26.
	Specific induction of cranial placode cells from Xenopus ectoderm by modulating the levels of BMP, Wnt and FGF signaling., Watanabe T., Genesis. October 1, 2014; .
	The evolutionary history of vertebrate cranial placodes--I: cell type evolution., Patthey C., Dev Biol. May 1, 2014; 389 (1): 82-97.
	The evolutionary history of vertebrate cranial placodes II. Evolution of ectodermal patterning., Schlosser G., Dev Biol. May 1, 2014; 389 (1): 98-119.
	Early embryonic specification of vertebrate cranial placodes., Schlosser G., Wiley Interdiscip Rev Dev Biol. January 1, 2014; 3 (5): 349-63.
	Mutual repression between Gbx2 and Otx2 in sensory placodes reveals a general mechanism for ectodermal patterning., Steventon B., Dev Biol. July 1, 2012; 367 (1): 55-65.
	Transcription factors involved in lens development from the preplacodal ectoderm., Ogino H., Dev Biol. March 15, 2012; 363 (2): 333-47.
	RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm., Janesick A., Development. March 1, 2012; 139 (6): 1213-24.
	Circadian Cycles of Gene Expression in the Coral, Acropora millepora., Brady AK., PLoS One. January 1, 2011; 6 (9): e25072.
	Developmental expression patterns of candidate cofactors for vertebrate six family transcription factors., Neilson KM., Dev Dyn. December 1, 2010; 239 (12): 3446-66.
	EYA1 mutations associated with the branchio-oto-renal syndrome result in defective otic development in Xenopus laevis., Li Y., Biol Cell. February 17, 2010; 102 (5): 277-92.
	Making senses development of vertebrate cranial placodes., Schlosser G., Int Rev Cell Mol Biol. January 1, 2010; 283 129-234.
	Cold-inducible RNA binding protein (CIRP), a novel XTcf-3 specific target gene regulates neural development in Xenopus., van Venrooy S., BMC Dev Biol. August 7, 2008; 8 77.
	Eya1 and Six1 promote neurogenesis in the cranial placodes in a SoxB1-dependent fashion., Schlosser G., Dev Biol. August 1, 2008; 320 (1): 199-214.
	Pleiotropic effects in Eya3 knockout mice., Söker T., BMC Dev Biol. June 23, 2008; 8 118.
	Differential expression of Eya1 and Eya2 during chick early embryonic development., Ishihara T., Gene Expr Patterns. May 1, 2008; 8 (5): 357-67.
	Regulation of otic vesicle and hair cell stereocilia morphogenesis by Ena/VASP-like (Evl) in Xenopus., Wanner SJ., J Cell Sci. August 1, 2007; 120 (Pt 15): 2641-51.
	Induction and specification of cranial placodes., Schlosser G., Dev Biol. June 15, 2006; 294 (2): 303-51.
	Tissues and signals involved in the induction of placodal Six1 expression in Xenopus laevis., Ahrens K., Dev Biol. December 1, 2005; 288 (1): 40-59.
	EYA1 expression in the developing inner ear., Bane BC., Ann Otol Rhinol Laryngol. November 1, 2005; 114 (11): 853-8.
	Identification of novel genes affecting mesoderm formation and morphogenesis through an enhanced large scale functional screen in Xenopus., Chen JA., Mech Dev. March 1, 2005; 122 (3): 307-31.
	Molecular anatomy of placode development in Xenopus laevis., Schlosser G., Dev Biol. July 15, 2004; 271 (2): 439-66.
	A restrictive role for Hedgehog signalling during otic specification in Xenopus., Koebernick K., Dev Biol. August 15, 2003; 260 (2): 325-38.
	Xenopus Eya1 demarcates all neurogenic placodes as well as migrating hypaxial muscle precursors., David R., Mech Dev. May 1, 2001; 103 (1-2): 189-92.
	The eyes absent gene: genetic control of cell survival and differentiation in the developing Drosophila eye., Bonini NM., Cell. February 12, 1993; 72 (3): 379-95.

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