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Summary Anatomy Item Literature (2790) Expression Attributions Wiki
XB-ANAT-42

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Neural expression of the Xenopus homeobox gene Xhox3: evidence for a patterning neural signal that spreads through the ectoderm., Ruiz i Altaba A., Development. April 1, 1990; 108 (4): 595-604.

The anterior extent of dorsal development of the Xenopus embryonic axis depends on the quantity of organizer in the late blastula., Stewart RM., Development. June 1, 1990; 109 (2): 363-72.

Membrane skeleton protein 4.1 in developing Xenopus: expression in postmitotic cells of the retina., Spencer M., Dev Biol. June 1, 1990; 139 (2): 279-91.          

A murine even-skipped homologue, Evx 1, is expressed during early embryogenesis and neurogenesis in a biphasic manner., Bastian H., EMBO J. June 1, 1990; 9 (6): 1839-52.

A developmentally regulated, nervous system-specific gene in Xenopus encodes a putative RNA-binding protein., Richter K., New Biol. June 1, 1990; 2 (6): 556-65.

Changes in lectin-binding pattern in the digestive tract of Xenopus laevis during metamorphosis. II. Small intestine., Ishizuya-Oka A., J Morphol. July 1, 1990; 205 (1): 9-15.

Changes in lectin-binding pattern in the digestive tract of Xenopus laevis during metamorphosis. I. Gastric region., Ishizuya-Oka A., J Morphol. July 1, 1990; 205 (1): 1-8.

The restriction of the heart morphogenetic field in Xenopus laevis., Sater AK., Dev Biol. August 1, 1990; 140 (2): 328-36.

Early tissue interactions leading to embryonic lens formation in Xenopus laevis., Henry JJ., Dev Biol. September 1, 1990; 141 (1): 149-63.

Distribution and migration pathways of HNK-1-immunoreactive neural crest cells in teleost fish embryos., Sadaghiani B., Development. September 1, 1990; 110 (1): 197-209.

Isolation and characterization of a distantly related member of the beta-gamma crystallin super gene family from Xenopus., Shastry BS., Biochem Biophys Res Commun. September 28, 1990; 171 (3): 1333-7.

The structure and expression of a distantly related member of the beta-gamma crystallin super gene family from Xenopus., Shastry BS., Biochem Biophys Res Commun. September 28, 1990; 171 (3): 1338-43.

A potassium channel gene is expressed at neural induction., Ribera AB., Neuron. November 1, 1990; 5 (5): 691-701.

Expression of the N-myc proto-oncogene during the early development of Xenopus laevis., Vize PD., Development. November 1, 1990; 110 (3): 885-96.    

Region-specific neural induction of an engrailed protein by anterior notochord in Xenopus., Hemmati-Brivanlou A., Science. November 9, 1990; 250 (4982): 800-2.

Immune responses of intact and embryonically enucleated frogs to self-lens antigens., Rollins-Smith LA., J Immunol. November 15, 1990; 145 (10): 3262-7.

Tissue interactions involving cranial neural crest in cartilage formation in Xenopus laevis (Daudin)., Seufert DW., Cell Differ Dev. December 1, 1990; 32 (2): 153-65.

The distribution of E-cadherin during Xenopus laevis development., Levi G., Development. January 1, 1991; 111 (1): 159-69.                

Neural induction., Phillips CR., Methods Cell Biol. January 1, 1991; 36 329-46.

Regenerative capacity of retinal cells and the maintenance of their differentiation., Lopashov GV., Ciba Found Symp. January 1, 1991; 160 209-17; discussion 217-8.

Gene activation in the amphibian mesoderm., Hopwood ND., Dev Suppl. January 1, 1991; 1 95-104.

Microinjection of fluorescent tracers to study neural cell lineages., Wetts R., Development. January 1, 1991; Suppl 2 1-8.    

Differential expression of creatine kinase isozymes during development of Xenopus laevis: an unusual heterodimeric isozyme appears at metamorphosis., Robert J., Differentiation. February 1, 1991; 46 (1): 23-34.            

Development of the Xenopus laevis hatching gland and its relationship to surface ectoderm patterning., Drysdale TA., Development. February 1, 1991; 111 (2): 469-78.            

Examining pattern formation in mouse, chicken and frog embryos with an En-specific antiserum., Davis CA., Development. February 1, 1991; 111 (2): 287-98.          

Retinoic acid modifies mesodermal patterning in early Xenopus embryos., Ruiz i Altaba A., Genes Dev. February 1, 1991; 5 (2): 175-87.

Differential expression of two cadherins in Xenopus laevis., Angres B., Development. March 1, 1991; 111 (3): 829-44.                    

Cephalic expression and molecular characterization of Xenopus En-2., Hemmati-Brivanlou A., Development. March 1, 1991; 111 (3): 715-24.    

Transgenic Xenopus laevis tadpoles: a transient in vivo model system for the manipulation of lens function and lens development., Brakenhoff RH., Nucleic Acids Res. March 25, 1991; 19 (6): 1279-84.

Progressively restricted expression of a new homeobox-containing gene during Xenopus laevis embryogenesis., Su MW., Development. April 1, 1991; 111 (4): 1179-87.          

[Immunolocalization of fodrin in the retina of vertebrates], Rungger E., Klin Monbl Augenheilkd. May 1, 1991; 198 (5): 408-10.

Inductive differentiation of two neural lineages reconstituted in a microculture system from Xenopus early gastrula cells., Mitani S., Development. May 1, 1991; 112 (1): 21-31.

Changes in neural and lens competence in Xenopus ectoderm: evidence for an autonomous developmental timer., Servetnick M., Development. May 1, 1991; 112 (1): 177-88.                  

Morphogenesis of adrenergic cells in a frog parasympathetic ganglion., Heathcote RD., J Comp Neurol. June 1, 1991; 308 (1): 139-48.

Neuroanatomical and functional analysis of neural tube formation in notochordless Xenopus embryos; laterality of the ventral spinal cord is lost., Clarke JD., Development. June 1, 1991; 112 (2): 499-516.                        

Xenopus embryos contain a somite-specific, MyoD-like protein that binds to a promoter site required for muscle actin expression., Taylor MV., Genes Dev. July 1, 1991; 5 (7): 1149-60.

Distribution and expression of two interactive extracellular matrix proteins, cytotactin and cytotactin-binding proteoglycan, during development of Xenopus laevis. I. Embryonic development., Williamson DA., J Morphol. August 1, 1991; 209 (2): 189-202.

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.                

Retinoic acid can mimic endogenous signals involved in transformation of the Xenopus nervous system., Sharpe CR., Neuron. August 1, 1991; 7 (2): 239-47.

Homeogenetic neural induction in Xenopus., Servetnick M., Dev Biol. September 1, 1991; 147 (1): 73-82.      

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.                  

Lens formation from the cornea following implantation into hindlimbs of larval Xenopus laevis: the influence of limb innervation and extent of differentiation., Filoni S., J Exp Zool. November 1, 1991; 260 (2): 220-8.

Connexin46, a novel lens gap junction protein, induces voltage-gated currents in nonjunctional plasma membrane of Xenopus oocytes., Paul DL., J Cell Biol. November 1, 1991; 115 (4): 1077-89.

Hensen's node induces neural tissue in Xenopus ectoderm. Implications for the action of the organizer in neural induction., Kintner CR., Development. December 1, 1991; 113 (4): 1495-505.

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.                          

Assembly and structure of calcium-induced thick vimentin filaments., Hofmann I., Eur J Cell Biol. December 1, 1991; 56 (2): 328-41.

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.      

Voltage-gated calcium currents in cultured embryonic Xenopus spinal neurones., Barish ME., J Physiol. December 1, 1991; 444 523-43.

Aggregation of pigment granules in single cultured Xenopus laevis melanophores by melatonin analogues., Sugden D., Br J Pharmacol. December 1, 1991; 104 (4): 922-7.

The use of field emission in-lens scanning electron microscopy to study the steps of assembly of the nuclear envelope in vitro., Goldberg MW., J Struct Biol. January 1, 1992; 108 (3): 257-68.

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