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Histological development of the cement gland in Xenopus laevis: a light microscopic study. , Lyerla TA., J Morphol. December 1, 1973; 141 (4): 491-501.
The cement gland of Xenopus laevis as an experimental model for embryonic differentiation. III. Histochemical and ultrastructural studies on cement glands differentiated in vitro. , Picard JJ., Arch Biol (Liege). January 1, 1975; 86 (2): 129-38.
Xenopus laevis cement gland as an experimental model for embryonic differentiation. II. The competence of embryonic cells. , Picard JJ., J Embryol Exp Morphol. July 1, 1975; 33 (4): 969-78.
Xenopus laevis cement gland as an experimental model for embryonic differentiation. I. In vitro stimulation of differentiation by ammonium chloride. , Picard JJ., J Embryol Exp Morphol. July 1, 1975; 33 (4): 957-67.
Anatomy, physiology and behavioural rôle of sensory nerve endings in the cement gland of embryonic xenopus. , Roberts A ., Proc R Soc Lond B Biol Sci. December 31, 1975; 192 (1106): 111-27.
Utrastructure of the cement gland of Xenopus laevis. , Picard JJ., J Morphol. February 1, 1976; 148 (2): 193-208.
Surface changes during development and involution of the cement gland of Xenopus laevis. , Van Evercooren A., Cell Tissue Res. November 20, 1978; 194 (2): 303-13.
The development of the peripheral trigeminal innervation in Xenopus embryos. , Davies SN., J Embryol Exp Morphol. August 1, 1982; 70 215-24.
Expression of an epidermal antigen used to study tissue induction in the early Xenopus laevis embryo. , Akers RM., Science. February 7, 1986; 231 (4738): 613-6.
Fates of the blastomeres of the 32-cell-stage Xenopus embryo. , Moody SA ., Dev Biol. August 1, 1987; 122 (2): 300-19.
The organization of mesodermal pattern in Xenopus laevis: experiments using a Xenopus mesoderm-inducing factor. , Cooke J., Development. December 1, 1987; 101 (4): 893-908.
The restrictive effect of early exposure to lithium upon body pattern in Xenopus development, studied by quantitative anatomy and immunofluorescence. , Cooke J., Development. January 1, 1988; 102 (1): 85-99.
The entire mesodermal mantle behaves as Spemann's organizer in dorsoanterior enhanced Xenopus laevis embryos. , Kao KR ., Dev Biol. May 1, 1988; 127 (1): 64-77.
The expression of epidermal antigens in Xenopus laevis. , Itoh K., Development. September 1, 1988; 104 (1): 1-14.
A whole-mount immunocytochemical analysis of the expression of the intermediate filament protein vimentin in Xenopus. , Dent JA., Development. January 1, 1989; 105 (1): 61-74.
Differential gene expression in the anterior neural plate during gastrulation of Xenopus laevis. , Jamrich M ., Development. April 1, 1989; 105 (4): 779-86.
Lithium-induced teratogenesis in frog embryos prevented by a polyphosphoinositide cycle intermediate or a diacylglycerol analog. , Busa WB ., Dev Biol. April 1, 1989; 132 (2): 315-24.
Hyperdorsoanterior embryos from Xenopus eggs treated with D2O. , Scharf SR., Dev Biol. July 1, 1989; 134 (1): 175-88.
Progressive determination during formation of the anteroposterior axis in Xenopus laevis. , Sive HL ., Cell. July 14, 1989; 58 (1): 171-80.
The appearance of acetylated alpha-tubulin during early development and cellular differentiation in Xenopus. , Chu DT., Dev Biol. November 1, 1989; 136 (1): 104-17.
Segregation of fate during cleavage of frog (Xenopus laevis) blastomeres. , Moody SA ., Anat Embryol (Berl). January 1, 1990; 182 (4): 347-62.
Molecular approach to dorsoanterior development in Xenopus laevis. , Sato SM ., Dev Biol. January 1, 1990; 137 (1): 135-41.
Differential keratin gene expression during the differentiation of the cement gland of Xenopus laevis. , LaFlamme SE., Dev Biol. February 1, 1990; 137 (2): 414-8.
XK endo B is preferentially expressed in several induced embryonic tissues during the development of Xenopus laevis. , LaFlamme SE., Differentiation. March 1, 1990; 43 (1): 1-9.
The Xenopus XIHbox 6 homeo protein, a marker of posterior neural induction, is expressed in proliferating neurons. , Wright CV ., Development. May 1, 1990; 109 (1): 225-34.
Localization of specific mRNAs in Xenopus embryos by whole-mount in situ hybridization. , Hemmati-Brivanlou A ., Development. October 1, 1990; 110 (2): 325-30.
Correlated onset and patterning of proopiomelanocortin gene expression in embryonic Xenopus brain and pituitary. , Hayes WP., Development. November 1, 1990; 110 (3): 747-57.
The distribution of E-cadherin during Xenopus laevis development. , Levi G., Development. January 1, 1991; 111 (1): 159-69.
Development of the Xenopus laevis hatching gland and its relationship to surface ectoderm patterning. , Drysdale TA ., Development. February 1, 1991; 111 (2): 469-78.
Separation of an anterior inducing activity from development of dorsal axial mesoderm in large-headed frog embryos. , Elinson RP ., Dev Biol. May 1, 1991; 145 (1): 91-8.
Retinoic acid modifies the pattern of cell differentiation in the central nervous system of neurula stage Xenopus embryos. , Ruiz i Altaba A ., Development. August 1, 1991; 112 (4): 945-58.
XLPOU 1 and XLPOU 2, two novel POU domain genes expressed in the dorsoanterior region of Xenopus embryos. , Agarwal VR., Dev Biol. October 1, 1991; 147 (2): 363-73.
EP-cadherin in muscles and epithelia of Xenopus laevis embryos. , Levi G., Development. December 1, 1991; 113 (4): 1335-44.
Retinoic acid causes abnormal development and segmental patterning of the anterior hindbrain in Xenopus embryos. , Papalopulu N ., Development. December 1, 1991; 113 (4): 1145-58.
Localization of a nervous system-specific class II beta-tubulin gene in Xenopus laevis embryos by whole-mount in situ hybridization. , Oschwald R., Int J Dev Biol. December 1, 1991; 35 (4): 399-405.
The stopping response of Xenopus laevis embryos: behaviour, development and physiology. , Boothby KM., J Comp Physiol A. February 1, 1992; 170 (2): 171-80.
Identification and developmental expression of a novel low molecular weight neuronal intermediate filament protein expressed in Xenopus laevis. , Charnas LR., J Neurosci. August 1, 1992; 12 (8): 3010-24.
The stopping response of Xenopus laevis embryos: pharmacology and intracellular physiology of rhythmic spinal neurones and hindbrain neurones. , Boothby KM., J Exp Biol. August 1, 1992; 169 65-86.
A novel homeobox gene expressed in the anterior neural plate of the Xenopus embryo. , Zaraisky AG ., Dev Biol. August 1, 1992; 152 (2): 373-82.
The armadillo homologs beta-catenin and plakoglobin are differentially expressed during early development of Xenopus laevis. , DeMarais AA., Dev Biol. October 1, 1992; 153 (2): 337-46.
Xenopus Distal-less related homeobox genes are expressed in the developing forebrain and are induced by planar signals. , Papalopulu N ., Development. March 1, 1993; 117 (3): 961-75.
Expression of a Xenopus Distal-less homeobox gene involved in forebrain and cranio-facial development. , Dirksen ML., Mech Dev. May 1, 1993; 41 (2-3): 121-8.
Expression of an extracellular deletion of Xotch diverts cell fate in Xenopus embryos. , Coffman CR., Cell. May 21, 1993; 73 (4): 659-71.
Catenins in Xenopus embryogenesis and their relation to the cadherin-mediated cell-cell adhesion system. , Schneider S., Development. June 1, 1993; 118 (2): 629-40.
Inductive events in the patterning of the Xenopus laevis hatching and cement glands, two cell types which delimit head boundaries. , Drysdale TA ., Dev Biol. July 1, 1993; 158 (1): 245-53.
GATA-4 is a novel transcription factor expressed in endocardium of the developing heart. , Kelley C ., Development. July 1, 1993; 118 (3): 817-27.
Xwnt-5A: a maternal Wnt that affects morphogenetic movements after overexpression in embryos of Xenopus laevis. , Moon RT ., Development. September 1, 1993; 119 (1): 97-111.
v- erbA and citral reduce the teratogenic effects of all-trans retinoic acid and retinol, respectively, in Xenopus embryogenesis. , Schuh TJ ., Development. November 1, 1993; 119 (3): 785-98.
XNkx-2.5, a Xenopus gene related to Nkx-2.5 and tinman: evidence for a conserved role in cardiac development. , Tonissen KF ., Dev Biol. March 1, 1994; 162 (1): 325-8.
GR transcripts are localized during early Xenopus laevis embryogenesis and overexpression of GR inhibits differentiation after dexamethasone treatment. , Gao X., Biochem Biophys Res Commun. March 15, 1994; 199 (2): 734-41.