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	Inositol tetrakisphosphate liberates stored Ca2+ in Xenopus oocytes and facilitates responses to inositol trisphosphate., Parker I., J Physiol. February 1, 1991; 433 207-27.
	The Xenopus localized messenger RNA An3 may encode an ATP-dependent RNA helicase., Gururajan R., Nature. February 21, 1991; 349 (6311): 717-9.
	Expression of a mRNA related to c-rel and dorsal in early Xenopus laevis embryos., Kao KR., Proc Natl Acad Sci U S A. April 1, 1991; 88 (7): 2697-701.
	Deep cytoplasmic rearrangements during early development in Xenopus laevis., Danilchik MV., Development. April 1, 1991; 111 (4): 845-56.
	Xwnt-8, a Xenopus Wnt-1/int-1-related gene responsive to mesoderm-inducing growth factors, may play a role in ventral mesodermal patterning during embryogenesis., Christian JL., Development. April 1, 1991; 111 (4): 1045-55.
	x121: a localized maternal transcript in Xenopus laevis., Kloc M., Mol Reprod Dev. April 1, 1991; 28 (4): 341-5.
	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 polarized distribution of poly(A+)-mRNA-induced functional ion channels in the Xenopus oocyte plasma membrane is prevented by anticytoskeletal drugs., Peter AB., J Cell Biol. August 1, 1991; 114 (3): 455-64.
	Nuclear translocation of fibroblast growth factor during Xenopus mesoderm induction., Shiurba RA., Development. October 1, 1991; 113 (2): 487-93.
	Induction of dorsal and ventral mesoderm by ectopically expressed Xenopus basic fibroblast growth factor., Kimelman D., Development. January 1, 1992; 114 (1): 261-9.
	Sequential expression of multiple POU proteins during amphibian early development., Hinkley CS., Mol Cell Biol. February 1, 1992; 12 (2): 638-49.
	The marginal zone of the 32-cell amphibian embryo contains all the information required for chordamesoderm development., Pierce KE., J Exp Zool. April 15, 1992; 262 (1): 40-50.
	Xenopus blastulae show regional differences in competence for mesoderm induction: correlation with endogenous basic fibroblast growth factor levels., Godsave SF., Dev Biol. June 1, 1992; 151 (2): 506-15.
	Bone morphogenetic protein 4: a ventralizing factor in early Xenopus development., Dale L., Development. June 1, 1992; 115 (2): 573-85.
	The role of growth factors in embryonic induction in Xenopus laevis., Dawid IB., Mol Reprod Dev. June 1, 1992; 32 (2): 136-44.
	Kinetics of the functional loss of different muscarinic receptor isoforms in Xenopus oocytes., Matus-Leibovitch N., Biochem J. August 1, 1992; 285 ( Pt 3) 753-8.
	Xenopus maternal RNAs from a dorsal animal blastomere induce a secondary axis in host embryos., Hainski AM., Development. October 1, 1992; 116 (2): 347-55.
	Host cell factors controlling vimentin organization in the Xenopus oocyte., Dent JA., J Cell Biol. November 1, 1992; 119 (4): 855-66.
	[A morphological study of the keratin cytoskeleton of the oocyte from the clawed toad using heterologous monoclonal antibodies]., Riabova LV., Ontogenez. January 1, 1993; 24 (6): 22-32.
	The hemispheric distribution of Torpedo nicotinic receptors expressed in Xenopus oocytes., Oron Y., J Basic Clin Physiol Pharmacol. January 1, 1993; 4 (3): 181-97.
	Evidence that the border of the neural plate may be positioned by the interaction between signals that induce ventral and dorsal mesoderm., Zhang J., Dev Dyn. February 1, 1993; 196 (2): 79-90.
	The Xenopus IP3 receptor: structure, function, and localization in oocytes and eggs., Kume S., Cell. May 7, 1993; 73 (3): 555-70.
	Microinjection of Rap2B protein or RNA induces rearrangement of pigment granules in Xenopus oocytes., Campa MJ., Biochem J. May 15, 1993; 292 ( Pt 1) 231-6.
	Two related localized mRNAs from Xenopus laevis encode ubiquitin-like fusion proteins., Linnen JM., Gene. June 30, 1993; 128 (2): 181-8.
	Ectopic spindle assembly during maturation of Xenopus oocytes: evidence for functional polarization of the oocyte cortex., Gard DL., Dev Biol. September 1, 1993; 159 (1): 298-310.
	Cortical cytoplasm, which induces dorsal axis formation in Xenopus, is inactivated by UV irradiation of the oocyte., Holowacz T., Development. September 1, 1993; 119 (1): 277-85.
	Competence prepattern in the animal hemisphere of the 8-cell-stage Xenopus embryo., Kinoshita K., Dev Biol. November 1, 1993; 160 (1): 276-84.
	Deep cytoplasmic rearrangements in axis-respecified Xenopus embryos., Denegre JM., Dev Biol. November 1, 1993; 160 (1): 157-64.
	The egg nucleus regulates the behavior of sperm nuclei as well as cycling of MPF in physiologically polyspermic newt eggs., Iwao Y., Dev Biol. November 1, 1993; 160 (1): 15-27.
	Deep cytoplasmic rearrangements in ventralized Xenopus embryos., Brown EE, Brown EE., Dev Biol. November 1, 1993; 160 (1): 148-56.
	Xwnt-11: a maternally expressed Xenopus wnt gene., Ku M., Development. December 1, 1993; 119 (4): 1161-73.
	Secretion and mesoderm-inducing activity of the TGF-beta-related domain of Xenopus Vg1., Dale L., EMBO J. December 1, 1993; 12 (12): 4471-80.
	Differential effects of cytoskeletal agents on hemispheric functional expression of cell membrane receptors in Xenopus oocytes., Matus-Leibovitch N., Cell Mol Neurobiol. December 1, 1993; 13 (6): 625-37.
	Inositol 1,4,5-trisphosphate receptors in Xenopus laevis oocytes: localization and modulation by Ca2+., Callamaras N., Cell Calcium. January 1, 1994; 15 (1): 66-78.
	Contractile proteins and nonerythroid spectrin in oogenesis of Xenopus laevis., Ryabova LV., Mol Reprod Dev. January 1, 1994; 37 (1): 99-109.
	Gamma-tubulin is asymmetrically distributed in the cortex of Xenopus oocytes., Gard DL., Dev Biol. January 1, 1994; 161 (1): 131-40.
	Presence of inositol 1,4,5-trisphosphate receptor, calreticulin, and calsequestrin in eggs of sea urchins and Xenopus laevis., Parys JB., Dev Biol. February 1, 1994; 161 (2): 466-76.
	Spatial and temporal transcription patterns of the forkhead related XFD-2/XFD-2' genes in Xenopus laevis embryos., Lef J., Mech Dev. February 1, 1994; 45 (2): 117-26.
	Activin-mediated mesoderm induction requires FGF., Cornell RA., Development. February 1, 1994; 120 (2): 453-62.
	Dorsal-ventral differences in Xcad-3 expression in response to FGF-mediated induction in Xenopus., Northrop JL., Dev Biol. February 1, 1994; 161 (2): 490-503.
	Highly polarized EGF receptor tyrosine kinase activity initiates egg activation in Xenopus., Yim DL., Dev Biol. March 1, 1994; 162 (1): 41-55.
	The four animal blastomeres of the eight-cell stage of Xenopus laevis are intrinsically capable of differentiating into dorsal mesodermal derivatives., Grunz H., Int J Dev Biol. March 1, 1994; 38 (1): 69-76.
	Fibroblast growth factor, but not activin, is a potent activator of mitogen-activated protein kinase in Xenopus explants., Graves LM., Proc Natl Acad Sci U S A. March 1, 1994; 91 (5): 1662-6.
	An3 mRNA encodes an RNA helicase that colocalizes with nucleoli in Xenopus oocytes in a stage-specific manner., Gururajan R., Proc Natl Acad Sci U S A. March 15, 1994; 91 (6): 2056-60.
	The cleavage stage origin of Spemann's Organizer: analysis of the movements of blastomere clones before and during gastrulation in Xenopus., Bauer DV., Development. May 1, 1994; 120 (5): 1179-89.
	Confocal microscopy of F-actin distribution in Xenopus oocytes., Roeder AD., Zygote. May 1, 1994; 2 (2): 111-24.
	Provisional bilateral symmetry in Xenopus eggs is established during maturation., Brown EE., Zygote. August 1, 1994; 2 (3): 213-20.
	Novel HOX, POU and FKH genes expressed during bFGF-induced mesodermal differentiation in Xenopus., King MW, King MW., Nucleic Acids Res. September 25, 1994; 22 (19): 3990-6.
	The hemispheric functional expression of the thyrotropin-releasing-hormone receptor is not determined by the receptors' physical distribution., Matus-Leibovitch N., Biochem J. October 1, 1994; 303 ( Pt 1) 129-34.
	Spatial and temporal expression of basic fibroblast growth factor (FGF-2) mRNA and protein in early Xenopus development., Song J., Mech Dev. December 1, 1994; 48 (3): 141-51.

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