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	Evidence for multiple sequences and factors involved in c-myc RNA stability during amphibian oogenesis., Lefresne J., Dev Growth Differ. April 1, 2001; 43 (2): 195-211.
	Balbiani bodies in cricket oocytes: development, ultrastructure, and presence of localized RNAs., Bradley JT., Differentiation. June 1, 2001; 67 (4-5): 117-27.
	RINGO efficiently triggers meiosis resumption in mouse oocytes and induces cell cycle arrest in embryos., Terret ME., Biol Cell. September 1, 2001; 93 (1-2): 89-97.
	The classical progesterone receptor associates with p42 MAPK and is involved in phosphatidylinositol 3-kinase signaling in Xenopus oocytes., Bagowski CP., J Biol Chem. October 5, 2001; 276 (40): 37708-14.
	A constitutively active form of the protein kinase p90Rsk1 is sufficient to trigger the G2/M transition in Xenopus oocytes., Gross SD., J Biol Chem. December 7, 2001; 276 (49): 46099-103.
	Vegetal localization of maternal mRNAs is disrupted by VegT depletion., Heasman J., Dev Biol. December 15, 2001; 240 (2): 377-86.
	Phosphoinositide 3-kinase-gamma induces Xenopus oocyte maturation via lipid kinase activity., Hehl S., Biochem J. December 15, 2001; 360 (Pt 3): 691-8.
	The distribution of RNA polymerase II largest subunit (RPB1) in the Xenopus germinal vesicle., Doyle O., J Struct Biol. January 1, 2002; 140 (1-3): 154-66.
	Notch signaling is involved in the regulation of Id3 gene transcription during Xenopus embryogenesis., Reynaud-Deonauth S., Differentiation. January 1, 2002; 69 (4-5): 198-208.
	Induction of maturation-promoting factor during Xenopus oocyte maturation uncouples Ca(2+) store depletion from store-operated Ca(2+) entry., Machaca K., J Cell Biol. January 7, 2002; 156 (1): 75-85.
	Boron deficiency disables Xenopus laevis oocyte maturation events., Fort DJ., Biol Trace Elem Res. February 1, 2002; 85 (2): 157-69.
	Accessory nuclei revisited: the translocation of snRNPs from the germinal vesicle to the periphery of the future embryo., Biliński SM., Chromosoma. March 1, 2002; 111 (1): 62-8.
	A new role for Mos in Xenopus oocyte maturation: targeting Myt1 independently of MAPK., Peter M., Development. May 1, 2002; 129 (9): 2129-39.
	Characterization of MPF and MAPK activities during meiotic maturation of Xenopus tropicalis oocytes., Bodart JF., Dev Biol. May 15, 2002; 245 (2): 348-61.
	Heat shock induces mini-Cajal bodies in the Xenopus germinal vesicle., Handwerger KE., J Cell Sci. May 15, 2002; 115 (Pt 10): 2011-20.
	Effect of endocrine disrupting chemicals on germinal vesicle breakdown in Xenopus in vitro., Fort DJ., Drug Chem Toxicol. August 1, 2002; 25 (3): 293-308.
	Cloning of ribosomal protein S6 kinase cDNA and its involvement in meiotic maturation in Rana dybowskii oocytes., Byun HM., Mol Cells. August 31, 2002; 14 (1): 16-23.
	SNT1/FRS2 mediates germinal vesicle breakdown induced by an activated FGF receptor1 in Xenopus oocytes., Mood K., J Biol Chem. September 6, 2002; 277 (36): 33196-204.
	Abnormal Tau phosphorylation of the Alzheimer-type also occurs during mitosis., Delobel P., J Neurochem. October 1, 2002; 83 (2): 412-20.
	Xkid chromokinesin is required for the meiosis I to meiosis II transition in Xenopus laevis oocytes., Perez LH., Nat Cell Biol. October 1, 2002; 4 (10): 737-42.
	Cdc6 synthesis regulates replication competence in Xenopus oocytes., Whitmire E., Nature. October 17, 2002; 419 (6908): 722-5.
	TACC3 expression and localization in the murine egg and ovary., Hao Z., Mol Reprod Dev. November 1, 2002; 63 (3): 291-9.
	Discrimination of the roles of MPF and MAP kinase in morphological changes that occur during oocyte maturation., Kotani T., Dev Biol. December 15, 2002; 252 (2): 271-86.
	DIF-1, an anti-tumor substance found in Dictyostelium discoideum, inhibits progesterone-induced oocyte maturation in Xenopus laevis., Kubohara Y., Eur J Pharmacol. January 24, 2003; 460 (2-3): 93-8.
	Role of cdc2 kinase phosphorylation and conserved N-terminal proteolysis motifs in cytoplasmic polyadenylation-element-binding protein (CPEB) complex dissociation and degradation., Thom G., Biochem J. February 15, 2003; 370 (Pt 1): 91-100.
	Steady-state dynamics of Cajal body components in the Xenopus germinal vesicle., Handwerger KE., J Cell Biol. February 17, 2003; 160 (4): 495-504.
	Characterization of ribosomal S6 protein kinase p90rsk during meiotic maturation and fertilization in pig oocytes: mitogen-activated protein kinase-associated activation and localization., Fan HY., Biol Reprod. March 1, 2003; 68 (3): 968-77.
	Biphasic activation of Aurora-A kinase during the meiosis I- meiosis II transition in Xenopus oocytes., Ma C., Mol Cell Biol. March 1, 2003; 23 (5): 1703-16.
	A G protein-coupled receptor kinase induces Xenopus oocyte maturation., Wang J., J Biol Chem. May 2, 2003; 278 (18): 15809-14.
	The RRASK motif in Xenopus cyclin B2 is required for the substrate recognition of Cdc25C by the cyclin B-Cdc2 complex., Goda T., J Biol Chem. May 23, 2003; 278 (21): 19032-7.
	Two types of new ferritin cDNA sequences from Xenopus laevis germinal vesicle oocytes., Huang WH., DNA Seq. June 1, 2003; 14 (3): 211-4.
	Expression and functional dynamics of the XCAP-D2 condensin subunit in Xenopus laevis oocytes., Watrin E., J Biol Chem. July 11, 2003; 278 (28): 25708-15.
	Nuclei of adult mammalian somatic cells are directly reprogrammed to oct-4 stem cell gene expression by amphibian oocytes., Byrne JA., Curr Biol. July 15, 2003; 13 (14): 1206-13.
	XMAP215, XKCM1, NuMA, and cytoplasmic dynein are required for the assembly and organization of the transient microtubule array during the maturation of Xenopus oocytes., Becker BE., Dev Biol. September 15, 2003; 261 (2): 488-505.
	Xenopus autosomal recessive hypercholesterolemia protein couples lipoprotein receptors with the AP-2 complex in oocytes and embryos and is required for vitellogenesis., Zhou Y., J Biol Chem. November 7, 2003; 278 (45): 44584-92.
	1,10-Phenanthroline phosphorylates (activates) MAP kinase in Xenopus oocytes., Watanabe K., Cell Signal. December 1, 2003; 15 (12): 1139-47.
	Xp42(Mpk1) activation is not required for germinal vesicle breakdown but for Raf complete phosphorylation in insulin-stimulated Xenopus oocytes., Baert F., J Biol Chem. December 12, 2003; 278 (50): 49714-20.
	Spindle checkpoint proteins Mad1 and Mad2 are required for cytostatic factor-mediated metaphase arrest., Tunquist BJ., J Cell Biol. December 22, 2003; 163 (6): 1231-42.
	Oocyte maturation in Xenopus laevis is blocked by the hormonal herbicide, 2,4-dichlorophenoxy acetic acid., Stebbins-Boaz B., Mol Reprod Dev. February 1, 2004; 67 (2): 233-42.
	Kinesin II mediates Vg1 mRNA transport in Xenopus oocytes., Betley JN., Curr Biol. February 3, 2004; 14 (3): 219-24.
	Nuclear import and activity of histone deacetylase in Xenopus oocytes is regulated by phosphorylation., Smillie DA., J Cell Sci. April 1, 2004; 117 (Pt 9): 1857-66.
	Ca(2+)(cyt) negatively regulates the initiation of oocyte maturation., Sun L., J Cell Biol. April 1, 2004; 165 (1): 63-75.
	Dynamics of coilin in Cajal bodies of the Xenopus germinal vesicle., Deryusheva S., Proc Natl Acad Sci U S A. April 6, 2004; 101 (14): 4810-4.
	Contribution of JNK, Mek, Mos and PI-3K signaling to GVBD in Xenopus oocytes., Mood K., Cell Signal. May 1, 2004; 16 (5): 631-42.
	Structure in the amphibian germinal vesicle., Gall JG., Exp Cell Res. May 15, 2004; 296 (1): 28-34.
	Stimulation of Xenopus laevis oocyte maturation by methyl-beta-cyclodextrin., Sadler SE., Biol Reprod. June 1, 2004; 70 (6): 1685-92.
	Xenopus Cdc14 alpha/beta are localized to the nucleolus and centrosome and are required for embryonic cell division., Kaiser BK., BMC Cell Biol. July 13, 2004; 5 27.
	Evidence for overlapping, but not identical, protein machineries operating in vegetal RNA localization along early and late pathways in Xenopus oocytes., Claussen M., Development. September 1, 2004; 131 (17): 4263-73.
	Timing of Plk1 and MPF activation during porcine oocyte maturation., Anger M., Mol Reprod Dev. September 1, 2004; 69 (1): 11-6.
	Conservation of epidermal growth factor receptor function in the human parasitic helminth Schistosoma mansoni., Vicogne J., J Biol Chem. September 3, 2004; 279 (36): 37407-14.

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