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	The development of Xenopus tropicalis transgenic lines and their use in studying lens developmental timing in living embryos., Offield MF., Development. May 1, 2000; 127 (9): 1789-97.
	Xenopus laevis gelatinase B (Xmmp-9): development, regeneration, and wound healing., Carinato ME., Dev Dyn. April 1, 2000; 217 (4): 377-87.
	An intermediate state of the gamma-aminobutyric acid transporter GAT1 revealed by simultaneous voltage clamp and fluorescence., Li M., J Gen Physiol. April 1, 2000; 115 (4): 491-508.
	pH and calcium regulate the water permeability of aquaporin 0., Németh-Cahalan KL., J Biol Chem. March 10, 2000; 275 (10): 6777-82.
	XTIF2, a Xenopus homologue of the human transcription intermediary factor, is required for a nuclear receptor pathway that also interacts with CBP to suppress Brachyury and XMyoD., de la Calle-Mustienes E., Mech Dev. March 1, 2000; 91 (1-2): 119-29.
	A role for voltage-gated potassium channels in the outgrowth of retinal axons in the developing visual system., McFarlane S., J Neurosci. February 1, 2000; 20 (3): 1020-9.
	Stress-induced, tissue-specific enrichment of hsp70 mRNA accumulation in Xenopus laevis embryos., Lang L., Cell Stress Chaperones. January 1, 2000; 5 (1): 36-44.
	Regulation of lens rCx46-formed hemichannels by activation of protein kinase C, external Ca(2+) and protons., Jedamzik B., J Membr Biol. January 1, 2000; 173 (1): 39-46.
	Germ-line transmission of transgenes in Xenopus laevis., Marsh-Armstrong N., Proc Natl Acad Sci U S A. December 7, 1999; 96 (25): 14389-93.
	Transmembrane helix 5 is critical for the high water permeability of aquaporin., Kuwahara M., Biochemistry. December 7, 1999; 38 (49): 16340-6.
	Construction of a confocal microscope for real-time x-y and x-z imaging., Callamaras N., Cell Calcium. December 1, 1999; 26 (6): 271-9.
	Comparative analysis of embryonic gene expression defines potential interaction sites for Xenopus EphB4 receptors with ephrin-B ligands., Helbling PM., Dev Dyn. December 1, 1999; 216 (4-5): 361-73.
	Vax1, a novel homeobox-containing gene, directs development of the basal forebrain and visual system., Hallonet M., Genes Dev. December 1, 1999; 13 (23): 3106-14.
	Fluorescent photoreceptors of transgenic Xenopus laevis imaged in vivo by two microscopy techniques., Moritz OL., Invest Ophthalmol Vis Sci. December 1, 1999; 40 (13): 3276-80.
	p27Xic1, a Cdk inhibitor, promotes the determination of glial cells in Xenopus retina., Ohnuma S., Cell. November 24, 1999; 99 (5): 499-510.
	Pax-6 and Prox 1 expression during lens regeneration from Cynops iris and Xenopus cornea: evidence for a genetic program common to embryonic lens development., Mizuno N., Differentiation. November 1, 1999; 65 (3): 141-9.
	Xpitx-1: a homeobox gene expressed during pituitary and cement gland formation of Xenopus embryos., Hollemann T., Mech Dev. November 1, 1999; 88 (2): 249-52.
	Gut specific expression using mammalian promoters in transgenic Xenopus laevis., Beck CW., Mech Dev. November 1, 1999; 88 (2): 221-7.
	A novel fork head gene mediates early steps during Xenopus lens formation., Kenyon KL., Development. November 1, 1999; 126 (22): 5107-16.
	A gene trap approach in Xenopus., Bronchain OJ., Curr Biol. October 21, 1999; 9 (20): 1195-8.
	Expression of the highly conserved RNA binding protein KOC in embryogenesis., Mueller-Pillasch F., Mech Dev. October 1, 1999; 88 (1): 95-9.
	Pax6 induces ectopic eyes in a vertebrate., Chow RL., Development. October 1, 1999; 126 (19): 4213-22.
	A homeobox gene, vax2, controls the patterning of the eye dorsoventral axis., Barbieri AM., Proc Natl Acad Sci U S A. September 14, 1999; 96 (19): 10729-34.
	Expression of the Xenopus laevis metallothionein gene during ontogeny., Durliat M., Int J Dev Biol. September 1, 1999; 43 (6): 575-8.
	Giant eyes in Xenopus laevis by overexpression of XOptx2., Zuber ME., Cell. August 6, 1999; 98 (3): 341-52.
	Animal-vegetal asymmetries influence the earliest steps in retina fate commitment in Xenopus., Moore KB., Dev Biol. August 1, 1999; 212 (1): 25-41.
	Conservation of gene expression during embryonic lens formation and cornea-lens transdifferentiation in Xenopus laevis., Schaefer JJ., Dev Dyn. August 1, 1999; 215 (4): 308-18.
	Regulation of lens fiber cell differentiation by transcription factor c-Maf., Kawauchi S., J Biol Chem. July 2, 1999; 274 (27): 19254-60.
	Retinoic acid biosynthetic enzyme ALDH1 localizes in a subset of retinoid-dependent tissues during xenopus development., Ang HL., Dev Dyn. July 1, 1999; 215 (3): 264-72.
	Analysis of chicken Wnt-13 expression demonstrates coincidence with cell division in the developing eye and is consistent with a role in induction., Jasoni C., Dev Dyn. July 1, 1999; 215 (3): 215-24.
	Lens regeneration in Xenopus is not a mere repeat of lens development, with respect to crystallin gene expression., Mizuno N., Differentiation. March 1, 1999; 64 (3): 143-9.
	Neuronal differentiation and patterning in Xenopus: the role of cdk5 and a novel activator xp35.2., Philpott A., Dev Biol. March 1, 1999; 207 (1): 119-32.
	Gating of cx46 gap junction hemichannels by calcium and voltage., Pfahnl A., Pflugers Arch. February 1, 1999; 437 (3): 345-53.
	Immune response to "self" lens in Xenopus laevis enucleated during larval life., Enomoto T., Dev Immunol. January 1, 1999; 7 (1): 23-32.
	Spatial pattern of constitutive and heat shock-induced expression of the small heat shock protein gene family, Hsp30, in Xenopus laevis tailbud embryos., Lang L., Dev Genet. January 1, 1999; 25 (4): 365-74.
	Constitutive and stress-inducible expression of the endoplasmic reticulum heat shock protein 70 gene family member, immunoglobulin-binding protein (BiP), during Xenopus laevis early development., Miskovic D., Dev Genet. January 1, 1999; 25 (1): 31-9.
	The RNA-binding protein gene, hermes, is expressed at high levels in the developing heart., Gerber WV., Mech Dev. January 1, 1999; 80 (1): 77-86.
	Characterization of the Ets-type protein ER81 in Xenopus embryos., Chen Y, Chen Y., Mech Dev. January 1, 1999; 80 (1): 67-76.
	Co-expression of lens fiber connexins modifies hemi-gap-junctional channel behavior., Ebihara L., Biophys J. January 1, 1999; 76 (1 Pt 1): 198-206.
	Retinoic acid X receptor in the diploblast, Tripedalia cystophora., Kostrouch Z., Proc Natl Acad Sci U S A. November 10, 1998; 95 (23): 13442-7.
	Gene activation during early stages of lens induction in Xenopus., Zygar CA., Development. September 1, 1998; 125 (17): 3509-19.
	Spatial differences in gap junction gating in the lens are a consequence of connexin cleavage., Lin JS., Eur J Cell Biol. August 1, 1998; 76 (4): 246-50.
	The genetic sequence of retinal development in the ciliary margin of the Xenopus eye., Perron M., Dev Biol. July 15, 1998; 199 (2): 185-200.
	Glutathione transport in immortalized HLE cells and expression of transport in HLE cell poly(A)+ RNA-injected Xenopus laevis oocytes., Kannan R., Invest Ophthalmol Vis Sci. July 1, 1998; 39 (8): 1379-86.
	The Xenopus homologue of the Drosophila gene tailless has a function in early eye development., Hollemann T., Development. July 1, 1998; 125 (13): 2425-32.
	Sequential genesis and determination of cone and rod photoreceptors in Xenopus., Chang WS., J Neurobiol. June 1, 1998; 35 (3): 227-44.
	A distinct membrane current in rat lens fiber cells isolated under calcium-free conditions., Eckert R., Invest Ophthalmol Vis Sci. June 1, 1998; 39 (7): 1280-5.
	Interleukin-1beta and its type 1 receptor are expressed in developing neural circuits in the frog, Xenopus laevis., Jelaso AM., J Comp Neurol. May 4, 1998; 394 (2): 242-51.
	Induction of lens differentiation by activation of a bZIP transcription factor, L-Maf., Ogino H., Science. April 3, 1998; 280 (5360): 115-8.
	NF-protocadherin, a novel member of the cadherin superfamily, is required for Xenopus ectodermal differentiation., Bradley RS., Curr Biol. March 12, 1998; 8 (6): 325-34.

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