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Xenopus spinal neurons express Kv2 potassium channel transcripts during embryonic development. , Burger C., J Neurosci. February 15, 1996; 16 (4): 1412-21.
Dorsal mesoderm has a dual origin and forms by a novel mechanism in Hymenochirus, a relative of Xenopus. , Minsuk SB., Dev Biol. February 25, 1996; 174 (1): 92-103.
Overexpression of the homeobox gene Xnot-2 leads to notochord formation in Xenopus. , Gont LK., Dev Biol. February 25, 1996; 174 (1): 174-8.
A Xenopus gene, Xbr-1, defines a novel class of homeobox genes and is expressed in the dorsal ciliary margin of the eye. , Papalopulu N ., Dev Biol. February 25, 1996; 174 (1): 104-14.
A sticky problem: the Xenopus cement gland as a paradigm for anteroposterior patterning. , Sive H ., Dev Dyn. March 1, 1996; 205 (3): 265-80.
Expression of the melatonin receptor in Xenopus laevis: a comparative study between protein and mRNA distribution. , Mazzucchelli C., J Pineal Res. March 1, 1996; 20 (2): 57-64.
Xenopus Xsal-1, a vertebrate homolog of the region specific homeotic gene spalt of Drosophila. , Hollemann T ., Mech Dev. March 1, 1996; 55 (1): 19-32.
[Effects of basic fibroblast growth factor on the development of mouse preimplantation embryos]. , Yoshida S., Nihon Sanka Fujinka Gakkai Zasshi. March 1, 1996; 48 (3): 170-6.
A truncated FGF receptor blocks neural induction by endogenous Xenopus inducers. , Launay C., Development. March 1, 1996; 122 (3): 869-80.
In vitro analysis of epiblast tissue potency for hematopoietic cell differentiation. , Kanatsu M., Development. March 1, 1996; 122 (3): 823-30.
TGF-beta signals and a pattern in Xenopus laevis endodermal development. , Henry GL., Development. March 1, 1996; 122 (3): 1007-15.
Xenopus laevis actin-depolymerizing factor/cofilin: a phosphorylation-regulated protein essential for development. , Abe H., J Cell Biol. March 1, 1996; 132 (5): 871-85.
The thyroid hormone-induced tail resorption program during Xenopus laevis metamorphosis. , Brown DD ., Proc Natl Acad Sci U S A. March 5, 1996; 93 (5): 1924-9.
Primary sequence and developmental expression pattern of mRNAs and protein for an alpha1 subunit of the sodium pump cloned from the neural plate of Xenopus laevis. , Davies CS., Dev Biol. March 15, 1996; 174 (2): 431-47.
The Xenopus GATA-4/5/6 genes are associated with cardiac specification and can regulate cardiac-specific transcription during embryogenesis. , Jiang Y., Dev Biol. March 15, 1996; 174 (2): 258-70.
There are three distinct forms of bombesin. Identification of [Leu13]bombesin, [Phe13]bombesin, and [Ser3,Arg10,Phe13]bombesin in the frog Bombina orientalis. , Nagalla SR., J Biol Chem. March 29, 1996; 271 (13): 7731-7.
Zn(2+)-induction of metallothionein in myotomal cell nuclei during somitogenesis of Xenopus laevis. , Sunderman FW., Mol Reprod Dev. April 1, 1996; 43 (4): 444-51.
The organizer formation: two molecules are better than one. , Lombardo A., Bioessays. April 1, 1996; 18 (4): 267-70.
N-acetyl-cysteine causes a late re-specification of the anteroposterior axis in the Xenopus embryo. , Gatherer D., Dev Dyn. April 1, 1996; 205 (4): 395-409.
Cloning and expression of Xenopus CCT gamma, a chaperonin subunit developmentally regulated in neural-derived and myogenic lineages. , Dunn MK., Dev Dyn. April 1, 1996; 205 (4): 387-94.
Xotx genes in the developing brain of Xenopus laevis. , Kablar B., Mech Dev. April 1, 1996; 55 (2): 145-58.
A novel MAP kinase phosphatase is localised in the branchial arch region and tail tip of Xenopus embryos and is inducible by retinoic acid. , Mason C., Mech Dev. April 1, 1996; 55 (2): 133-44.
The LIM homeodomain protein Lim-1 is widely expressed in neural, neural crest and mesoderm derivatives in vertebrate development. , Karavanov AA., Int J Dev Biol. April 1, 1996; 40 (2): 453-61.
Nuclear transplantation from stably transfected cultured cells of Xenopus. , Chan AP., Int J Dev Biol. April 1, 1996; 40 (2): 441-51.
Inductive processes leading to inner ear formation during Xenopus development. , Gallagher BC., Dev Biol. April 10, 1996; 175 (1): 95-107.
Induction of axial mesoderm by zDVR-1, the zebrafish orthologue of Xenopus Vg1. , Dohrmann CE., Dev Biol. April 10, 1996; 175 (1): 108-17.
AP-1/ jun is required for early Xenopus development and mediates mesoderm induction by fibroblast growth factor but not by activin. , Dong Z., J Biol Chem. April 26, 1996; 271 (17): 9942-6.
Zebrafish cyclin E regulation during early embryogenesis. , Yarden A., Dev Dyn. May 1, 1996; 206 (1): 1-11.
Comparative aspects of the pineal/melatonin system of poikilothermic vertebrates. , Filadelfi AM., J Pineal Res. May 1, 1996; 20 (4): 175-86.
Chick NKx-2.3 represents a novel family member of vertebrate homologues to the Drosophila homeobox gene tinman: differential expression of cNKx-2.3 and cNKx-2.5 during heart and gut development. , Buchberger A., Mech Dev. May 1, 1996; 56 (1-2): 151-63.
The mouse homolog of the region specific homeotic gene spalt of Drosophila is expressed in the developing nervous system and in mesoderm-derived structures. , Ott T., Mech Dev. May 1, 1996; 56 (1-2): 117-28.
Blockade of swelling-induced chloride channels by phenol derivatives. , Gschwentner M., Br J Pharmacol. May 1, 1996; 118 (1): 41-8.
Overexpression of Xgsk-3 disrupts anterior ectodermal patterning in Xenopus. , Pierce SB., Dev Biol. May 1, 1996; 175 (2): 256-64.
Bone morphogenetic protein-4 ( BMP-4) acts during gastrula stages to cause ventralization of Xenopus embryos. , Jones CM ., Development. May 1, 1996; 122 (5): 1545-54.
Screening of protein tyrosine kinases activated during neural induction in Xenopus. , Dupont H., Anal Biochem. May 15, 1996; 237 (1): 42-8.
Xenopus Mad proteins transduce distinct subsets of signals for the TGF beta superfamily. , Graff JM ., Cell. May 17, 1996; 85 (4): 479-87.
[Induction of autonomously contracting muscle cells in the gastrula ectoderm by live cardiomyocytes from adult frogs]. , Golubeva ON., Dokl Akad Nauk. June 1, 1996; 348 (4): 560-3.
Overexpression of the Xenopus Xl- fli gene during early embryogenesis leads to anomalies in head and heart development and erythroid differentiation. , Remy P ., Int J Dev Biol. June 1, 1996; 40 (3): 577-89.
Mesoderm and endoderm differentiation in animal cap explants: identification of the HNF4-binding site as an activin A responsive element in the Xenopus HNF1alpha promoter. , Weber H., Development. June 1, 1996; 122 (6): 1975-84.
Involvement of FGF-8 in initiation, outgrowth and patterning of the vertebrate limb. , Vogel A., Development. June 1, 1996; 122 (6): 1737-50.
Regulation of dorsal- ventral patterning: the ventralizing effects of the novel Xenopus homeobox gene Vox. , Schmidt JE., Development. June 1, 1996; 122 (6): 1711-21.
A human Mad protein acting as a BMP-regulated transcriptional activator. , Liu F., Nature. June 13, 1996; 381 (6583): 620-3.
Molecular determinants for activation and inactivation of HERG, a human inward rectifier potassium channel. , Schönherr R., J Physiol. June 15, 1996; 493 ( Pt 3) 635-42.
A novel homeobox gene PV.1 mediates induction of ventral mesoderm in Xenopus embryos. , Ault KT., Proc Natl Acad Sci U S A. June 25, 1996; 93 (13): 6415-20.
Diagnosis and treatment of a parasitic dermatitis in a laboratory colony of African clawed frogs (Xenopus laevis). , Cunningham AA., Vet Rec. June 29, 1996; 138 (26): 640-2.
Association of rous sarcoma virus DNA with Xenopus laevis spermatozoa and its transfer to ova through fertilization. , Habrová V., Mol Reprod Dev. July 1, 1996; 44 (3): 332-42.
GATA factors and the origins of adult and embryonic blood in Xenopus: responses to retinoic acid. , Bertwistle D., Mech Dev. July 1, 1996; 57 (2): 199-214.
An ascidian homologue of vertebrate BMPs-5-8 is expressed in the midline of the anterior neuroectoderm and in the midline of the ventral epidermis of the embryo. , Miya T., Mech Dev. July 1, 1996; 57 (2): 181-90.
Embryonic expression of eph signalling factors in Xenopus. , Weinstein DC ., Mech Dev. July 1, 1996; 57 (2): 133-44.
Time, voltage and ionic concentration dependence of rectification of h- erg expressed in Xenopus oocytes. , Wang S., FEBS Lett. July 1, 1996; 389 (2): 167-73.