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Histone H3 Lysine 27 Trimethylation Leads to Loss of Mesendodermal Competence During Gastrulation in Zebrafish Ectodermal Cells. , Shiomi T., Zoolog Sci. February 1, 2017; 34 (1): 64-71.
Discovering novel phenotypes with automatically inferred dynamic models: a partial melanocyte conversion in Xenopus. , Lobo D., Sci Rep. January 27, 2017; 7 41339.
Rfx2 Stabilizes Foxj1 Binding at Chromatin Loops to Enable Multiciliated Cell Gene Expression. , Quigley IK ., PLoS Genet. January 19, 2017; 13 (1): e1006538.
A Tissue-Mapped Axolotl De Novo Transcriptome Enables Identification of Limb Regeneration Factors. , Bryant DM., Cell Rep. January 17, 2017; 18 (3): 762-776.
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.
High-throughput analysis reveals novel maternal germline RNAs crucial for primordial germ cell preservation and proper migration. , Owens DA ., Development. January 15, 2017; 144 (2): 292-304.
Addressing the Functional Determinants of FAK during Ciliogenesis in Multiciliated Cells. , Antoniades I., J Biol Chem. January 13, 2017; 292 (2): 488-504.
CFTR- β-catenin interaction regulates mouse embryonic stem cell differentiation and embryonic development. , Liu Z., Cell Death Differ. January 1, 2017; 24 (1): 98-110.
Nemo-like kinase 1 (Nlk1) and paraxial protocadherin (PAPC) cooperatively control Xenopus gastrulation through regulation of Wnt/planar cell polarity (PCP) signaling. , Kumar R., Differentiation. January 1, 2017; 93 27-38.
Xenopus, an ideal model organism to study laterality in conjoined twins. , Tisler M., Genesis. January 1, 2017; 55 (1-2):
Exosomal trafficking in Xenopus development. , Danilchik M ., Genesis. January 1, 2017; 55 (1-2):
A frog's view of EphrinB signaling. , Hwang YS., Genesis. January 1, 2017; 55 (1-2):
What we can learn from a tadpole about ciliopathies and airway diseases: Using systems biology in Xenopus to study cilia and mucociliary epithelia. , Walentek P ., Genesis. January 1, 2017; 55 (1-2):
Genome-wide analysis of canonical Wnt target gene regulation in Xenopus tropicalis challenges β-catenin paradigm. , Nakamura Y., Genesis. January 1, 2017; 55 (1-2):
Functional differences between Tcf1 isoforms in early Xenopus development. , Roël G., Int J Dev Biol. January 1, 2017; 61 (1-2): 29-34.
Models of amphibian myogenesis - the case of Bombina variegata. , Kiełbwna L., Int J Dev Biol. January 1, 2017; 61 (1-2): 17-27.
ADHFe1: a novel enzyme involved in retinoic acid-dependent Hox activation. , Shabtai Y., Int J Dev Biol. January 1, 2017; 61 (3-4-5): 303-310.
FoxD1 protein interacts with Wnt and BMP signaling to differentially pattern mesoderm and neural tissue. , Polevoy H., Int J Dev Biol. January 1, 2017; 61 (3-4-5): 293-302.
Expression of the ALK1 family of type I BMP/ADMP receptors during gastrula stages in Xenopus embryos. , Leibovich A., Int J Dev Biol. January 1, 2017; 61 (6-7): 465-470.
Apolipoprotein C-I mediates Wnt/Ctnnb1 signaling during neural border formation and is required for neural crest development. , Yokota C., Int J Dev Biol. January 1, 2017; 61 (6-7): 415-425.
Serotonergic stimulation induces nerve growth and promotes visual learning via posterior eye grafts in a vertebrate model of induced sensory plasticity. , Blackiston DJ ., NPJ Regen Med. January 1, 2017; 2 8.
La-related protein 6 controls ciliated cell differentiation. , Manojlovic Z., Cilia. January 1, 2017; 6 4.
[Morphomechanical Factors in Gastrulation Process and Differentiation of Embryonic Tissue of Xenopus laevis]. , Vasilegina YI., Ontogenez. January 1, 2017; 48 (1): 39-45.
CFAP157 is a murine downstream effector of FOXJ1 that is specifically required for flagellum morphogenesis and sperm motility. , Weidemann M., Development. December 15, 2016; 143 (24): 4736-4748.
Mechanical roles of apical constriction, cell elongation, and cell migration during neural tube formation in Xenopus. , Inoue Y., Biomech Model Mechanobiol. December 1, 2016; 15 (6): 1733-1746.
Acute phase response in amputated tail stumps and neural tissue-preferential expression in tail bud embryos of the Xenopus neuronal pentraxin I gene. , Hatta-Kobayashi Y., Dev Growth Differ. December 1, 2016; 58 (9): 688-701.
MarvelD3 regulates the c- Jun N-terminal kinase pathway during eye development in Xenopus. , Vacca B., Biol Open. November 15, 2016; 5 (11): 1631-1641.
The Mesoderm-Forming Gene brachyury Regulates Ectoderm- Endoderm Demarcation in the Coral Acropora digitifera. , Yasuoka Y ., Curr Biol. November 7, 2016; 26 (21): 2885-2892.
The embryonic origins and genetic programming of emerging haematopoietic stem cells. , Ciau-Uitz A ., FEBS Lett. November 1, 2016; 590 (22): 4002-4015.
Tril targets Smad7 for degradation to allow hematopoietic specification in Xenopus embryos. , Green YS., Development. November 1, 2016; 143 (21): 4016-4026.
Ascl1 represses the mesendoderm induction in Xenopus. , Min Z., Acta Biochim Biophys Sin (Shanghai). November 1, 2016; 48 (11): 1006-1015.
The cellular and molecular mechanisms of tissue repair and regeneration as revealed by studies in Xenopus. , Li J., Regeneration (Oxf). October 28, 2016; 3 (4): 198-208.
Expression of ribosomopathy genes during Xenopus tropicalis embryogenesis. , Robson A., BMC Dev Biol. October 26, 2016; 16 (1): 38.
Corepressor diversification by alternative mRNA splicing is species specific. , Privalsky ML., BMC Evol Biol. October 19, 2016; 16 (1): 221.
Xenopus TACC2 is a microtubule plus end-tracking protein that can promote microtubule polymerization during embryonic development. , Rutherford EL ., Mol Biol Cell. October 15, 2016; 27 (20): 3013-3020.
NSrp70 is significant for embryonic growth and development, being a crucial factor for gastrulation and mesoderm induction. , Lee SH., Biochem Biophys Res Commun. October 14, 2016; 479 (2): 238-244.
Data on microRNAs and microRNA-targeted mRNAs in Xenopus ectoderm. , Shah VV ., Data Brief. October 14, 2016; 9 699-703.
The proteins of Vent-family and their mRNAs are located in different areas of the tails of Zebrafish and Xenopus embryos. , Pshennikova ES., Int J Biochem Cell Biol. October 1, 2016; 79 388-392.
The histone methyltransferase Setd7 promotes pancreatic progenitor identity. , Kofent J., Development. October 1, 2016; 143 (19): 3573-3581.
Tbx3 represses bmp4 expression and, with Pax6, is required and sufficient for retina formation. , Motahari Z., Development. October 1, 2016; 143 (19): 3560-3572.
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.
Wnt proteins can direct planar cell polarity in vertebrate ectoderm. , Chu CW., Elife. September 23, 2016; 5
The E3 ubiquitin ligase Hace1 is required for early embryonic development in Xenopus laevis. , Iimura A., BMC Dev Biol. September 21, 2016; 16 (1): 31.
Metabolomic approach for identifying and visualizing molecular tissue markers in tadpoles of Xenopus tropicalis by mass spectrometry imaging. , Goto-Inoue N., Biol Open. September 15, 2016; 5 (9): 1252-9.
Ciliary transcription factors and miRNAs precisely regulate Cp110 levels required for ciliary adhesions and ciliogenesis. , Walentek P ., Elife. September 13, 2016; 5
Congenital Heart Disease Genetics Uncovers Context-Dependent Organization and Function of Nucleoporins at Cilia. , Del Viso F., Dev Cell. September 12, 2016; 38 (5): 478-92.
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.
Comparative expression study of sipa family members during early Xenopus laevis development. , Rothe M., Dev Genes Evol. September 1, 2016; 226 (5): 369-82.
Overexpression of Leap2 impairs Xenopus embryonic development and modulates FGF and activin signals. , Thiébaud P ., Peptides. September 1, 2016; 83 21-8.
Expression of the insulinoma-associated 1 ( insm1) gene in Xenopus laevis tadpole retina and brain. , Bosse JL., Gene Expr Patterns. September 1, 2016; 22 (1): 26-29.