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Npr3 regulates neural crest and cranial placode progenitors formation through its dual function as clearance and signaling receptor. , Devotta A., Elife. May 10, 2023; 12
Pleiotropic role of TRAF7 in skull-base meningiomas and congenital heart disease. , Mishra-Gorur K., Proc Natl Acad Sci U S A. April 18, 2023; 120 (16): e2214997120.
OTUD3: A Lys6 and Lys63 specific deubiquitinase in early vertebrate development. , Job F., Biochim Biophys Acta Gene Regul Mech. March 1, 2023; 1866 (1): 194901.
The H2A.Z and NuRD associated protein HMG20A controls early head and heart developmental transcription programs. , Herchenröther A., Nat Commun. January 28, 2023; 14 (1): 472.
Cell landscape of larval and adult Xenopus laevis at single-cell resolution. , Liao Y., Nat Commun. July 25, 2022; 13 (1): 4306.
Impact of glyphosate-based herbicide on early embryonic development of the amphibian Xenopus laevis. , Flach H., Aquat Toxicol. March 1, 2022; 244 106081.
Systematic mapping of rRNA 2'-O methylation during frog development and involvement of the methyltransferase Fibrillarin in eye and craniofacial development in Xenopus laevis. , Delhermite J ., PLoS Genet. January 18, 2022; 18 (1): e1010012.
The Ribosomal Protein L5 Functions During Xenopus Anterior Development Through Apoptotic Pathways. , Schreiner C., Front Cell Dev Biol. January 1, 2022; 10 777121.
Function of chromatin modifier Hmgn1 during neural crest and craniofacial development. , Ihewulezi C., Genesis. October 1, 2021; 59 (10): e23447.
Anaplastic lymphoma kinase (alk), a neuroblastoma associated gene, is expressed in neural crest domains during embryonic development of Xenopus. , Moreno MM., Gene Expr Patterns. June 1, 2021; 40 119183.
Using Xenopus to analyze neurocristopathies like Kabuki syndrome. , Schwenty-Lara J., Genesis. February 1, 2021; 59 (1-2): e23404.
Paired Box 9 (PAX9), the RNA polymerase II transcription factor, regulates human ribosome biogenesis and craniofacial development. , Farley-Barnes KI., PLoS Genet. August 19, 2020; 16 (8): e1008967.
Dach1 regulates neural crest migration during embryonic development. , Kim YK., Biochem Biophys Res Commun. July 5, 2020; 527 (4): 896-901.
A new transgenic reporter line reveals Wnt-dependent Snai2 re-expression and cranial neural crest differentiation in Xenopus. , Li J., Sci Rep. August 1, 2019; 9 (1): 11191.
The Many Faces of Xenopus: Xenopus laevis as a Model System to Study Wolf-Hirschhorn Syndrome. , Lasser M., Front Physiol. January 1, 2019; 10 817.
Glycogen synthase kinase 3 controls migration of the neural crest lineage in mouse and Xenopus. , Gonzalez Malagon SG., Nat Commun. March 19, 2018; 9 (1): 1126.
Gene expression of the two developmentally regulated dermatan sulfate epimerases in the Xenopus embryo. , Gouignard N ., PLoS One. January 18, 2018; 13 (1): e0191751.
no privacy, a Xenopus tropicalis mutant, is a model of human Hermansky-Pudlak Syndrome and allows visualization of internal organogenesis during tadpole development. , Nakayama T ., Dev Biol. June 15, 2017; 426 (2): 472-486.
Sf3b4-depleted Xenopus embryos: A model to study the pathogenesis of craniofacial defects in Nager syndrome. , Devotta A., Dev Biol. July 15, 2016; 415 (2): 371-382.
Delamination of neural crest cells requires transient and reversible Wnt inhibition mediated by Dact1/2. , Rabadán MA., Development. June 15, 2016; 143 (12): 2194-205.
Musculocontractural Ehlers-Danlos syndrome and neurocristopathies: dermatan sulfate is required for Xenopus neural crest cells to migrate and adhere to fibronectin. , Gouignard N ., Dis Model Mech. June 1, 2016; 9 (6): 607-20.
Formin Is Associated with Left- Right Asymmetry in the Pond Snail and the Frog. , Davison A., Curr Biol. March 7, 2016; 26 (5): 654-60.
Genes regulated by potassium channel tetramerization domain containing 15 (Kctd15) in the developing neural crest. , Wong TC., Int J Dev Biol. January 1, 2016; 60 (4-6): 159-66.
The Proto-oncogene Transcription Factor Ets1 Regulates Neural Crest Development through Histone Deacetylase 1 to Mediate Output of Bone Morphogenetic Protein Signaling. , Wang C ., J Biol Chem. September 4, 2015; 290 (36): 21925-38.
Cadherin Switch during EMT in Neural Crest Cells Leads to Contact Inhibition of Locomotion via Repolarization of Forces. , Scarpa E., Dev Cell. August 24, 2015; 34 (4): 421-34.
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.
Evolutionarily conserved role for SoxC genes in neural crest specification and neuronal differentiation. , Uy BR., Dev Biol. January 15, 2015; 397 (2): 282-92.
A requirement for hedgehog signaling in thyroid hormone-induced postembryonic intestinal remodeling. , Wen L., Cell Biosci. January 1, 2015; 5 13.
GSK3 and Polo-like kinase regulate ADAM13 function during cranial neural crest cell migration. , Abbruzzese G ., Mol Biol Cell. December 15, 2014; 25 (25): 4072-82.
5-Mehtyltetrahydrofolate rescues alcohol-induced neural crest cell migration abnormalities. , Shi Y , Shi Y ., Mol Brain. September 16, 2014; 7 67.
In vivo collective cell migration requires an LPAR2-dependent increase in tissue fluidity. , Kuriyama S ., J Cell Biol. July 7, 2014; 206 (1): 113-27.
The evolutionary history of vertebrate cranial placodes II. Evolution of ectodermal patterning. , Schlosser G ., Dev Biol. May 1, 2014; 389 (1): 98-119.
Plakophilin-3 catenin associates with the ETV1/ ER81 transcription factor to positively modulate gene activity. , Munoz WA., PLoS One. January 1, 2014; 9 (1): e86784.
Expression pattern of zcchc24 during early Xenopus development. , Vitorino M., Int J Dev Biol. January 1, 2014; 58 (1): 45-50.
A secreted splice variant of the Xenopus frizzled-4 receptor is a biphasic modulator of Wnt signalling. , Gorny AK., Cell Commun Signal. November 19, 2013; 11 89.
Xenopus laevis nucleotide binding protein 1 (xNubp1) is important for convergent extension movements and controls ciliogenesis via regulation of the actin cytoskeleton. , Ioannou A ., Dev Biol. August 15, 2013; 380 (2): 243-58.
Vestibular lesion-induced developmental plasticity in spinal locomotor networks during Xenopus laevis metamorphosis. , Beyeler A., PLoS One. August 12, 2013; 8 (8): e71013.
The Xenopus Tgfbi is required for embryogenesis through regulation of canonical Wnt signalling. , Wang F., Dev Biol. July 1, 2013; 379 (1): 16-27.
Expression and functional characterization of Xhmg-at-hook genes in Xenopus laevis. , Macrì S., PLoS One. July 1, 2013; 8 (7): e69866.
The hypoxia factor Hif-1α controls neural crest chemotaxis and epithelial to mesenchymal transition. , Barriga EH., J Cell Biol. May 27, 2013; 201 (5): 759-76.
Pax3 and Zic1 drive induction and differentiation of multipotent, migratory, and functional neural crest in Xenopus embryos. , Milet C., Proc Natl Acad Sci U S A. April 2, 2013; 110 (14): 5528-33.
Calponin 2 acts as an effector of noncanonical Wnt-mediated cell polarization during neural crest cell migration. , Ulmer B., Cell Rep. March 28, 2013; 3 (3): 615-21.
Signaling and transcriptional regulation in neural crest specification and migration: lessons from xenopus embryos. , Pegoraro C., Wiley Interdiscip Rev Dev Biol. January 1, 2013; 2 (2): 247-59.
The protein kinase MLTK regulates chondrogenesis by inducing the transcription factor Sox6. , Suzuki T., Development. August 1, 2012; 139 (16): 2988-98.
ATP4a is required for Wnt-dependent Foxj1 expression and leftward flow in Xenopus left- right development. , Walentek P ., Cell Rep. May 31, 2012; 1 (5): 516-27.
Mutations in IRX5 impair craniofacial development and germ cell migration via SDF1. , Bonnard C., Nat Genet. May 13, 2012; 44 (6): 709-13.
sizzled function and secreted factor network dynamics. , Shi J., Biol Open. March 15, 2012; 1 (3): 286-94.
Transient expression of Ngn3 in Xenopus endoderm promotes early and ectopic development of pancreatic beta and delta cells. , Oropeza D., Genesis. March 1, 2012; 50 (3): 271-85.
The LIM adaptor protein LMO4 is an essential regulator of neural crest development. , Ochoa SD., Dev Biol. January 15, 2012; 361 (2): 313-25.
Plakophilin-3 is required for late embryonic amphibian development, exhibiting roles in ectodermal and neural tissues. , Munoz WA., PLoS One. January 1, 2012; 7 (4): e34342.