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Summary Anatomy Item Literature (3923) Expression Attributions Wiki
XB-ANAT-50

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Growth factors in development: the role of TGF-beta related polypeptide signalling molecules in embryogenesis., Hogan BL., Dev Suppl. January 1, 1992; 53-60.

The evolution of vertebrate gastrulation., De Robertis EM., Dev Suppl. January 1, 1992; 117-24.

Dissecting Wnt signalling pathways and Wnt-sensitive developmental processes through transient misexpression analyses in embryos of Xenopus laevis., Moon RT., Dev Suppl. January 1, 1992; 85-94.

[A comparative analysis of notochord formation in amphibian embryos]., Novoselov VV., Ontogenez. January 1, 1992; 23 (6): 624-31.

Body axis determination during early development in amphibians., Savard P., Biochem Cell Biol. January 1, 1992; 70 (10-11): 875-91.

Xwnt-8 modifies the character of mesoderm induced by bFGF in isolated Xenopus ectoderm., Christian JL., EMBO J. January 1, 1992; 11 (1): 33-41.

Induction of dorsal and ventral mesoderm by ectopically expressed Xenopus basic fibroblast growth factor., Kimelman D., Development. January 1, 1992; 114 (1): 261-9.

Distinct distribution of vimentin and cytokeratin in Xenopus oocytes and early embryos., Torpey NP., J Cell Sci. January 1, 1992; 101 ( Pt 1) 151-60.                

Induction of anteroposterior neural pattern in Xenopus by planar signals., Doniach T., Dev Suppl. January 1, 1992; 183-93.

Goosecoid and the organizer., De Roberts EM., Dev Suppl. January 1, 1992; 167-71.

Expression of XMyoD protein in early Xenopus laevis embryos., Hopwood ND., Development. January 1, 1992; 114 (1): 31-8.      

Expression of functional bradykinin receptors in Xenopus oocytes., Phillips E., J Neurochem. January 1, 1992; 58 (1): 243-9.

The patterning and functioning of protrusive activity during convergence and extension of the Xenopus organiser., Keller R., Dev Suppl. January 1, 1992; 81-91.

Retinoic acid and the late phase of neural induction., Sharpe CR., Dev Suppl. January 1, 1992; 203-7.

Relationships between mesoderm induction and the embryonic axes in chick and frog embryos., Stern CD., Dev Suppl. January 1, 1992; 151-6.

Specification of the body plan during Xenopus gastrulation: dorsoventral and anteroposterior patterning of the mesoderm., Slack JM., Dev Suppl. January 1, 1992; 143-9.

Muscle gene activation in Xenopus requires intercellular communication during gastrula as well as blastula stages., Gurdon JB., Dev Suppl. January 1, 1992; 137-42.

Mesoderm-inducing factors and the control of gastrulation., Smith JC., Dev Suppl. January 1, 1992; 127-36.

Molecular nature of Spemann's organizer: the role of the Xenopus homeobox gene goosecoid., Cho KW., Cell. December 20, 1991; 67 (6): 1111-20.              

Activin receptor mRNA is expressed early in Xenopus embryogenesis and the level of the expression affects the body axis formation., Kondo M., Biochem Biophys Res Commun. December 16, 1991; 181 (2): 684-90.      

Expression of GATA-binding proteins during embryonic development in Xenopus laevis., Zon LI., Proc Natl Acad Sci U S A. December 1, 1991; 88 (23): 10642-6.        

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.

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.                          

Dose and time-dependent mesoderm induction and outgrowth formation by activin A in Xenopus laevis., Ariizumi T., Int J Dev Biol. December 1, 1991; 35 (4): 407-14.

Directional mesoderm cell migration in the Xenopus gastrula., Winklbauer R., Dev Biol. December 1, 1991; 148 (2): 573-89.

Transient expression of XMyoD in non-somitic mesoderm of Xenopus gastrulae., Frank D., Development. December 1, 1991; 113 (4): 1387-93.        

Expression of the Xhox3 Homeobox Protein in Xenopus Embryos: Blocking Its Early Function Suggests the Requirement of Xhox3 for Normal Posterior Development: (axial pattern/central nervous system/embryonic mesoderm/homeobox gene/Xenopus laevis)., Ruiz I Altaba A., Dev Growth Differ. December 1, 1991; 33 (6): 651-669.

Injected Wnt RNA induces a complete body axis in Xenopus embryos., Sokol S., Cell. November 15, 1991; 67 (4): 741-52.              

Injected Xwnt-8 RNA acts early in Xenopus embryos to promote formation of a vegetal dorsalizing center., Smith WC., Cell. November 15, 1991; 67 (4): 753-65.          

The cloning and characterization of a maternally expressed novel zinc finger nuclear phosphoprotein (xnf7) in Xenopus laevis., Reddy BA., Dev Biol. November 1, 1991; 148 (1): 107-16.              

Cloning of a human cDNA encoding a CDC2-related kinase by complementation of a budding yeast cdc28 mutation., Ninomiya-Tsuji J., Proc Natl Acad Sci U S A. October 15, 1991; 88 (20): 9006-10.

Widespread expression of MyoD genes in Xenopus embryos is amplified in presumptive muscle as a delayed response to mesoderm induction., Harvey RP., Proc Natl Acad Sci U S A. October 15, 1991; 88 (20): 9198-202.

Expression of a Xenopus homolog of Brachyury (T) is an immediate-early response to mesoderm induction., Smith JC., Cell. October 4, 1991; 67 (1): 79-87.

Expression of two nonallelic type II procollagen genes during Xenopus laevis embryogenesis is characterized by stage-specific production of alternatively spliced transcripts., Su MW., J Cell Biol. October 1, 1991; 115 (2): 565-75.                

The nature of the mesoderm-inducing signal in Xenopus: a transfilter induction study., Slack JM., Development. October 1, 1991; 113 (2): 661-9.

Nuclear translocation of fibroblast growth factor during Xenopus mesoderm induction., Shiurba RA., Development. October 1, 1991; 113 (2): 487-93.      

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.                  

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

Concentration-dependent inducing activity of activin A., Ariizumi T., Rouxs Arch Dev Biol. September 1, 1991; 200 (4): 230-233.

Autonomous differentiation of dorsal axial structures from an animal cap cleavage stage blastomere in Xenopus., Gallagher BC., Development. August 1, 1991; 112 (4): 1103-14.

The switch from larval to adult globin gene expression in Xenopus laevis is mediated by erythroid cells from distinct compartments., Weber R., Development. August 1, 1991; 112 (4): 1021-9.              

Presence of activin (erythroid differentiation factor) in unfertilized eggs and blastulae of Xenopus laevis., Asashima M., Proc Natl Acad Sci U S A. August 1, 1991; 88 (15): 6511-4.

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.

Retinoic acid perturbs the expression of Xhox.lab genes and alters mesodermal determination in Xenopus laevis., Sive HL., Genes Dev. August 1, 1991; 5 (8): 1321-32.

Expression of a dominant negative mutant of the FGF receptor disrupts mesoderm formation in Xenopus embryos., Amaya E., Cell. July 26, 1991; 66 (2): 257-70.

Secretion of inhibin beta A by endoderm cultured from early embryonic chicken., Kokan-Moore NP., Dev Biol. July 1, 1991; 146 (1): 242-5.

Cloning, functional expression and role in cell growth regulation of a hamster 5-HT2 receptor subtype., Van Obberghen-Schilling E., Mol Endocrinol. July 1, 1991; 5 (7): 881-9.

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