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BMP signaling is required for development of the ciliary body. , Zhao S., Development. October 1, 2002; 129 (19): 4435-42.
Expression of voltage-dependent potassium channels in the developing visual system of Xenopus laevis. , Pollock NS., J Comp Neurol. October 28, 2002; 452 (4): 381-91.
Enhanced accumulation of constitutive heat shock protein mRNA is an initial response of eye tissue to mild hyperthermia in vivo in adult Xenopus laevis. , Ali A., Can J Physiol Pharmacol. November 1, 2002; 80 (11): 1119-23.
The gene for the intermediate chain subunit of cytoplasmic dynein is essential in Drosophila. , Boylan KL., Genetics. November 1, 2002; 162 (3): 1211-20.
XHRT-1, a hairy and Enhancer of split related gene with expression in floor plate and hypochord during early Xenopus embryogenesis. , Pichon B., Dev Genes Evol. November 1, 2002; 212 (10): 491-5.
Xiro homeoproteins coordinate cell cycle exit and primary neuron formation by upregulating neuronal-fate repressors and downregulating the cell-cycle inhibitor XGadd45-gamma. , de la Calle-Mustienes E ., Mech Dev. November 1, 2002; 119 (1): 69-80.
Role of 14-3-3 proteins in early Xenopus development. , Wu C ., Mech Dev. November 1, 2002; 119 (1): 45-54.
Mouse GLI3 regulates Fgf8 expression and apoptosis in the developing neural tube, face, and limb bud. , Aoto K., Dev Biol. November 15, 2002; 251 (2): 320-32.
Xdtx1, a Xenopus Deltex homologue expressed in differentiating neurons and in photoreceptive organs. , Andreazzoli M ., Mech Dev. December 1, 2002; 119 Suppl 1 S247-51.
Molecular cloning and expression analysis of dystroglycan during Xenopus laevis embryogenesis. , Lunardi A ., Mech Dev. December 1, 2002; 119 Suppl 1 S49-54.
The circadian gene Clock is required for the correct early expression of the head specific gene Otx2. , Morgan R., Int J Dev Biol. December 1, 2002; 46 (8): 999-1004.
Expression patterns of focal adhesion associated proteins in the developing retina. , Li M., Dev Dyn. December 1, 2002; 225 (4): 544-53.
Xenopus tropicalis transgenic lines and their use in the study of embryonic induction. , Hirsch N ., Dev Dyn. December 1, 2002; 225 (4): 522-35.
Early embryonic expression of ion channels and pumps in chick and Xenopus development. , Rutenberg J., Dev Dyn. December 1, 2002; 225 (4): 469-84.
Xenopus, the next generation: X. tropicalis genetics and genomics. , Hirsch N ., Dev Dyn. December 1, 2002; 225 (4): 422-33.
Kremen proteins interact with Dickkopf1 to regulate anteroposterior CNS patterning. , Davidson G., Development. December 1, 2002; 129 (24): 5587-96.
The intact Xenopus laevis eye rudiment: a quasi-in vivo system for the study of retinal development and degenerations. , Jablonski MM ., Adv Exp Med Biol. January 1, 2003; 533 189-96.
Concentration dependence of inductive activity in the mixture of lens epithelium proteins. , Zemchikhina VN., Tsitologiia. January 1, 2003; 45 (10): 1027-31.
In vitro induction and transplantation of eye during early Xenopus development. , Sedohara A., Dev Growth Differ. January 1, 2003; 45 (5-6): 463-71.
The development of gravity sensory systems during periods of altered gravity dependent sensory input. , Horn ER., Adv Space Biol Med. January 1, 2003; 9 133-71.
Conserved and divergent functions of Drosophila atonal, amphibian, and mammalian Ath5 genes. , Sun Y., Evol Dev. January 1, 2003; 5 (5): 532-41.
Differential distribution of Mel(1a) and Mel(1c) melatonin receptors in Xenopus laevis retina. , Wiechmann AF ., Exp Eye Res. January 1, 2003; 76 (1): 99-106.
Multiple connexins contribute to intercellular communication in the Xenopus embryo. , Landesman Y., J Cell Sci. January 1, 2003; 116 (Pt 1): 29-38.
Six3 and Six6 activity is modulated by members of the groucho family. , López-Ríos J., Development. January 1, 2003; 130 (1): 185-95.
Direct interaction with a nuclear protein and regulation of gene silencing by a variant of the Ca2+-channel beta 4 subunit. , Hibino H., Proc Natl Acad Sci U S A. January 7, 2003; 100 (1): 307-12.
Alpha- melanophore-stimulating hormone in the brain, cranial placode derivatives, and retina of Xenopus laevis during development in relation to background adaptation. , Kramer BM., J Comp Neurol. January 27, 2003; 456 (1): 73-83.
Fluorescent labeling of endothelial cells allows in vivo, continuous characterization of the vascular development of Xenopus laevis. , Levine AJ., Dev Biol. February 1, 2003; 254 (1): 50-67.
Chordin is required for the Spemann organizer transplantation phenomenon in Xenopus embryos. , Oelgeschläger M ., Dev Cell. February 1, 2003; 4 (2): 219-30.
Equarin, a novel soluble molecule expressed with polarity at chick embryonic lens equator, is involved in eye formation. , Mu H., Mech Dev. February 1, 2003; 120 (2): 143-55.
Eye regeneration at the molecular age. , Del Rio-Tsonis K ., Dev Dyn. February 1, 2003; 226 (2): 211-24.
Identification and characterization of human PRICKLE1 and PRICKLE2 genes as well as mouse Prickle1 and Prickle2 genes homologous to Drosophila tissue polarity gene prickle. , Katoh M., Int J Mol Med. February 1, 2003; 11 (2): 249-56.
Nocturnin, a deadenylase in Xenopus laevis retina: a mechanism for posttranscriptional control of circadian-related mRNA. , Baggs JE., Curr Biol. February 4, 2003; 13 (3): 189-98.
A tissue restricted role for the Xenopus Jun N-terminal kinase kinase kinase MLK2 in cement gland and pronephric tubule differentiation. , Poitras L., Dev Biol. February 15, 2003; 254 (2): 200-14.
Hedgehog signalling maintains the optic stalk-retinal interface through the regulation of Vax gene activity. , Take-uchi M., Development. March 1, 2003; 130 (5): 955-68.
Identification and characterization of human DAPPER1 and DAPPER2 genes in silico. , Katoh M., Int J Oncol. April 1, 2003; 22 (4): 907-13.
A novel function for Hedgehog signalling in retinal pigment epithelium differentiation. , Perron M ., Development. April 1, 2003; 130 (8): 1565-77.
XOtx5b and XOtx2 regulate photoreceptor and bipolar fates in the Xenopus retina. , Viczian AS ., Development. April 1, 2003; 130 (7): 1281-94.
Characterization of the Xenopus galectin family. Three structurally different types as in mammals and regulated expression during embryogenesis. , Shoji H., J Biol Chem. April 4, 2003; 278 (14): 12285-93.
Depletion of the cell-cycle inhibitor p27( Xic1) impairs neuronal differentiation and increases the number of ElrC(+) progenitor cells in Xenopus tropicalis. , Carruthers S ., Mech Dev. May 1, 2003; 120 (5): 607-16.
Isolation and growth factor inducibility of the Xenopus laevis Lmx1b gene. , Haldin CE ., Int J Dev Biol. May 1, 2003; 47 (4): 253-62.
Expression of Sox3 throughout the developing central nervous system is dependent on the combined action of discrete, evolutionarily conserved regulatory elements. , Brunelli S., Genesis. May 1, 2003; 36 (1): 12-24.
A putative Xenopus Rho-GTPase activating protein ( XrGAP) gene is expressed in the notochord and brain during the early embryogenesis. , Kim J ., Gene Expr Patterns. May 1, 2003; 3 (2): 219-23.
Tcf-1 expression during Xenopus development. , Roël G., Gene Expr Patterns. May 1, 2003; 3 (2): 123-6.
Loss of maternal Smad5 in zebrafish embryos affects patterning and morphogenesis of optic primordia. , Hammerschmidt M., Dev Dyn. May 1, 2003; 227 (1): 128-33.
XMAN1, an inner nuclear membrane protein, antagonizes BMP signaling by interacting with Smad1 in Xenopus embryos. , Osada S., Development. May 1, 2003; 130 (9): 1783-94.
Xenopus X-box binding protein 1, a leucine zipper transcription factor, is involved in the BMP signaling pathway. , Zhao H ., Dev Biol. May 15, 2003; 257 (2): 278-91.
In vivo analysis of the cyclin D1 promoter during early embryogenesis in Xenopus. , Tanaka T., Cell Struct Funct. June 1, 2003; 28 (3): 165-77.
The protooncogene c- myc is an essential regulator of neural crest formation in xenopus. , Bellmeyer A., Dev Cell. June 1, 2003; 4 (6): 827-39.
Increased expression of multiple neurofilament mRNAs during regeneration of vertebrate central nervous system axons. , Gervasi C ., J Comp Neurol. June 23, 2003; 461 (2): 262-75.
Importance of the conserved aromatic residues in the scorpion alpha-like toxin BmK M1: the hydrophobic surface region revisited. , Sun YM., J Biol Chem. June 27, 2003; 278 (26): 24125-31.