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Functions of block of proliferation 1 during anterior development in Xenopus laevis. , Gärtner C., PLoS One. August 2, 2022; 17 (8): e0273507.
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):
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.
Deep learning is widely applicable to phenotyping embryonic development and disease. , Naert T., Development. November 1, 2021; 148 (21):
Modeling human congenital disorders with neural crest developmental defects using patient-derived induced pluripotent stem cells. , Okuno H., Regen Ther. August 24, 2021; 18 275-280.
Retinol binding protein 1 affects Xenopus anterior neural development via all-trans retinoic acid signaling. , Flach H., Dev Dyn. August 1, 2021; 250 (8): 1096-1112.
An Innate Color Preference Displayed by Xenopus Tadpoles Is Persistent and Requires the Tegmentum. , Hunt JE., Front Behav Neurosci. May 12, 2020; 14 71.
The Stemness Gene Mex3A Is a Key Regulator of Neuroblast Proliferation During Neurogenesis. , Naef V., Front Cell Dev Biol. January 1, 2020; 8 549533.
Single Amino Acid Change Underlies Distinct Roles of H2A.Z Subtypes in Human Syndrome. , Greenberg RS., Cell. September 5, 2019; 178 (6): 1421-1436.e24.
FoxN3 is necessary for the development of the interatrial septum, the ventricular trabeculae and the muscles at the head/trunk interface in the African clawed frog, Xenopus laevis (Lissamphibia: Anura: Pipidae). , Naumann B., Dev Dyn. May 1, 2019; 248 (5): 323-336.
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.
Gli2 is required for the induction and migration of Xenopus laevis neural crest. , Cerrizuela S., Mech Dev. December 1, 2018; 154 219-239.
The age-regulated zinc finger factor ZNF367 is a new modulator of neuroblast proliferation during embryonic neurogenesis. , Naef V., Sci Rep. August 7, 2018; 8 (1): 11836.
Expression of the adhesion G protein-coupled receptor A2 (adgra2) during Xenopus laevis development. , Seigfried FA., Gene Expr Patterns. June 1, 2018; 28 54-61.
PFKFB4 control of AKT signaling is essential for premigratory and migratory neural crest formation. , Figueiredo AL., Development. November 15, 2017; 144 (22): 4183-4194.
Implication of thyroid hormone signaling in neural crest cells migration: Evidence from thyroid hormone receptor beta knockdown and NH3 antagonist studies. , Bronchain OJ ., Mol Cell Endocrinol. January 5, 2017; 439 233-246.
Functionomics of NCC mutations in Gitelman syndrome using a novel mammalian cell-based activity assay. , Valdez-Flores MA., Am J Physiol Renal Physiol. December 1, 2016; 311 (6): F1159-F1167.
Functional aspects of early brain development are preserved in tuberous sclerosis complex (TSC) epileptogenic lesions. , Ruffolo G., Neurobiol Dis. November 1, 2016; 95 93-101.
Chlorpyrifos exposure affects fgf8, sox9, and bmp4 expression required for cranial neural crest morphogenesis and chondrogenesis in Xenopus laevis embryos. , Tussellino M., Environ Mol Mutagen. October 1, 2016; 57 (8): 630-640.
Embryonic expression of endothelins and their receptors in lamprey and frog reveals stem vertebrate origins of complex Endothelin signaling. , Square T ., Sci Rep. September 28, 2016; 6 34282.
Hmga2 is required for neural crest cell specification in Xenopus laevis. , Macrì S., Dev Biol. March 1, 2016; 411 (1): 25-37.
Platelet derived growth factor B gene expression in the Xenopus laevis developing central nervous system. , Giannetti K., Int J Dev Biol. January 1, 2016; 60 (4-6): 175-9.
Mef2c-F10N enhancer driven β-galactosidase (LacZ) and Cre recombinase mice facilitate analyses of gene function and lineage fate in neural crest cells. , Aoto K., Dev Biol. June 1, 2015; 402 (1): 3-16.
The emergence of Pax7-expressing muscle stem cells during vertebrate head muscle development. , Nogueira JM., Front Aging Neurosci. May 19, 2015; 7 62.
TACC3 is a microtubule plus end-tracking protein that promotes axon elongation and also regulates microtubule plus end dynamics in multiple embryonic cell types. , Nwagbara BU ., Mol Biol Cell. November 1, 2014; 25 (21): 3350-62.
Six1 is a key regulator of the developmental and evolutionary architecture of sensory neurons in craniates. , Yajima H., BMC Biol. May 29, 2014; 12 40.
A novel N-terminal motif is responsible for the evolution of neural crest-specific gene-regulatory activity in vertebrate FoxD3. , Ono H., Dev Biol. January 15, 2014; 385 (2): 396-404.
Protein tyrosine phosphatase 4A3 ( PTP4A3) is required for Xenopus laevis cranial neural crest migration in vivo. , Maacha S., PLoS One. December 9, 2013; 8 (12): e84717.
The structure and development of Xenopus laevis cornea. , Hu W ., Exp Eye Res. November 1, 2013; 116 109-28.
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.
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.
Mutations in IRX5 impair craniofacial development and germ cell migration via SDF1. , Bonnard C., Nat Genet. May 13, 2012; 44 (6): 709-13.
A minor role of WNK3 in regulating phosphorylation of renal NKCC2 and NCC co-transporters in vivo. , Oi K., Biol Open. February 15, 2012; 1 (2): 120-7.
Hyaluronan is required for cranial neural crest cells migration and craniofacial development. , Casini P., Dev Dyn. February 1, 2012; 241 (2): 294-302.
Similar effects of all WNK3 variants on SLC12 cotransporters. , Cruz-Rangel S., Am J Physiol Cell Physiol. September 1, 2011; 301 (3): C601-8.
WNK2 kinase is a novel regulator of essential neuronal cation-chloride cotransporters. , Rinehart J., J Biol Chem. August 26, 2011; 286 (34): 30171-80.
γ-Adducin stimulates the thiazide-sensitive NaCl cotransporter. , Dimke H., J Am Soc Nephrol. March 1, 2011; 22 (3): 508-17.
Rare mutations in SLC12A1 and SLC12A3 protect against hypertension by reducing the activity of renal salt cotransporters. , Acuña R., J Hypertens. March 1, 2011; 29 (3): 475-83.
WNK3 is a putative chloride-sensing kinase. , Pacheco-Alvarez D., Cell Physiol Biochem. January 1, 2011; 28 (6): 1123-34.
Serotonin 2B receptor signaling is required for craniofacial morphogenesis and jaw joint formation in Xenopus. , Reisoli E., Development. September 1, 2010; 137 (17): 2927-37.
Xenopus development from late gastrulation to feeding tadpole in simulated microgravity. , Olson WM., Int J Dev Biol. January 1, 2010; 54 (1): 167-74.
RHAMM mRNA expression in proliferating and migrating cells of the developing central nervous system. , Casini P., Gene Expr Patterns. January 1, 2010; 10 (2-3): 93-7.
Renal and brain isoforms of WNK3 have opposite effects on NCCT expression. , Glover M., J Am Soc Nephrol. June 1, 2009; 20 (6): 1314-22.
Surface expression of epithelial Na channel protein in rat kidney. , Frindt G., J Gen Physiol. June 1, 2008; 131 (6): 617-27.
Identification and gene expression of versican during early development of Xenopus. , Casini P., Int J Dev Biol. January 1, 2008; 52 (7): 993-8.
TSC-box is essential for the nuclear localization and antiproliferative effect of XTSC-22. , Hashiguchi A., Dev Growth Differ. April 1, 2007; 49 (3): 197-204.
Gene expression in Xenopus laevis embryos after Triadimefon exposure. , Papis E., Gene Expr Patterns. January 1, 2007; 7 (1-2): 137-42.
Regulation of the expression of the Na/Cl cotransporter by WNK4 and WNK1: evidence that accelerated dynamin-dependent endocytosis is not involved. , Golbang AP., Am J Physiol Renal Physiol. December 1, 2006; 291 (6): F1369-76.