Papers associated with otic placode

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	Early embryonic specification of vertebrate cranial placodes., Schlosser G., Wiley Interdiscip Rev Dev Biol. January 1, 2014; 3 (5): 349-63.
	Developmental expression of Pitx2c in Xenopus trigeminal and profundal placodes., Jeong YH., Int J Dev Biol. January 1, 2014; 58 (9): 701-4.
	Dysphagia and disrupted cranial nerve development in a mouse model of DiGeorge (22q11) deletion syndrome., Karpinski BA., Dis Model Mech. February 1, 2014; 7 (2): 245-57.
	Developmental expression and role of Kinesin Eg5 during Xenopus laevis embryogenesis., Fernández JP., Dev Dyn. April 1, 2014; 243 (4): 527-40.
	Sp8 regulates inner ear development., Chung HA., Proc Natl Acad Sci U S A. April 29, 2014; 111 (17): 6329-34.
	Transport of boron by the tassel-less1 aquaporin is critical for vegetative and reproductive development in maize., Durbak AR., Plant Cell. July 1, 2014; 26 (7): 2978-95.
	Early expression of aromatase and the membrane estrogen receptor GPER in neuromasts reveals a role for estrogens in the development of the frog lateral line system., Hamilton CK., Gen Comp Endocrinol. September 1, 2014; 205 242-50.
	Embryological manipulations in the developing Xenopus inner ear reveal an intrinsic role for Wnt signaling in dorsal-ventral patterning., Forristall CA., Dev Dyn. October 1, 2014; 243 (10): 1262-74.
	I-J loop involvement in the pharmacological profile of CLC-K channels expressed in Xenopus oocytes., Gradogna A., Biochim Biophys Acta. November 1, 2014; 1838 (11): 2745-56.
	Evolutionary innovation and conservation in the embryonic derivation of the vertebrate skull., Piekarski N., Nat Commun. December 1, 2014; 5 5661.
	Vertebrate Cranial Placodes as Evolutionary Innovations-The Ancestor's Tale., Schlosser G., Curr Top Dev Biol. January 1, 2015; 111 235-300.
	SPAK and OSR1 Sensitive Cell Membrane Protein Abundance and Activity of KCNQ1/E1 K+ Channels., Elvira B., Cell Physiol Biochem. January 1, 2015; 37 (5): 2032-42.
	Heat shock 70-kDa protein 5 (Hspa5) is essential for pronephros formation by mediating retinoic acid signaling., Shi W., J Biol Chem. January 2, 2015; 290 (1): 577-89.
	A novel function for Egr4 in posterior hindbrain development., Bae CJ., Sci Rep. January 12, 2015; 5 7750.
	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.
	Sensory afferent segregation in three-eared frogs resemble the dominance columns observed in three-eyed frogs., Elliott KL., Sci Rep. February 9, 2015; 5 8338.
	The ribosome biogenesis factor Nol11 is required for optimal rDNA transcription and craniofacial development in Xenopus., Griffin JN., PLoS Genet. March 10, 2015; 11 (3): e1005018.
	ERK7 regulates ciliogenesis by phosphorylating the actin regulator CapZIP in cooperation with Dishevelled., Miyatake K., Nat Commun. March 31, 2015; 6 6666.
	The frog inner ear: picture perfect?, Mason MJ., J Assoc Res Otolaryngol. April 1, 2015; 16 (2): 171-88.
	Inner ear development: building a spiral ganglion and an organ of Corti out of unspecified ectoderm., Fritzsch B., Cell Tissue Res. July 1, 2015; .
	Transcriptional regulator PRDM12 is essential for human pain perception., Chen YC, Chen YC., Nat Genet. July 1, 2015; 47 (7): 803-8.
	Spinal corollary discharge modulates motion sensing during vertebrate locomotion., Chagnaud BP., Nat Commun. September 4, 2015; 6 7982.
	Cooperative and independent functions of FGF and Wnt signaling during early inner ear development., Wright KD., BMC Dev Biol. October 6, 2015; 15 33.
	RNA-Seq and microarray analysis of the Xenopus inner ear transcriptome discloses orthologous OMIM(®) genes for hereditary disorders of hearing and balance., Ramírez-Gordillo D., BMC Res Notes. November 18, 2015; 8 691.
	Ear manipulations reveal a critical period for survival and dendritic development at the single-cell level in Mauthner neurons., Elliott KL., Dev Neurobiol. December 1, 2015; 75 (12): 1339-51.
	Noggin 1 overexpression in retinal progenitors affects bipolar cell generation., Messina A., Int J Dev Biol. January 1, 2016; 60 (4-6): 151-7.
	Spemann organizer transcriptome induction by early beta-catenin, Wnt, Nodal, and Siamois signals in Xenopus laevis., Ding Y., Proc Natl Acad Sci U S A. April 11, 2017; 114 (15): E3081-E3090.
	The Cannabinoid Receptor Interacting Proteins 1 of zebrafish are not required for morphological development, viability or fertility., Fin L., Sci Rep. July 7, 2017; 7 (1): 4858.
	Pou3f transcription factor expression during embryonic development highlights distinct pou3f3 and pou3f4 localization in the Xenopus laevis kidney., Cosse-Etchepare C., Int J Dev Biol. January 1, 2018; 62 (4-5): 325-333.
	Gene expression of the two developmentally regulated dermatan sulfate epimerases in the Xenopus embryo., Gouignard N., PLoS One. January 18, 2018; 13 (1): e0191751.
	Transplantation of Ears Provides Insights into Inner Ear Afferent Pathfinding Properties., Gordy C., Dev Neurobiol. November 1, 2018; 78 (11): 1064-1080.
	Stabilization of Gaze during Early Xenopus Development by Swimming-Related Utricular Signals., Lambert FM., Curr Biol. February 24, 2020; 30 (4): 746-753.e4.
	Otic Neurogenesis in Xenopus laevis: Proliferation, Differentiation, and the Role of Eya1., Almasoudi SH., Front Neuroanat. January 1, 2021; 15 722374.
	Mapping single-cell atlases throughout Metazoa unravels cell type evolution., Tarashansky AJ., Elife. May 4, 2021; 10
	Generation of a new six1-null line in Xenopus tropicalis for study of development and congenital disease., Coppenrath K., Genesis. December 1, 2021; 59 (12): e23453.
	inka1b expression in the head mesoderm is dispensable for facial cartilage development., Jeon H., Gene Expr Patterns. January 1, 2022; 45 119262.
	In vitro modeling of cranial placode differentiation: Recent advances, challenges, and perspectives., Griffin C., Dev Biol. February 1, 2024; 506 20-30.

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