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Biochemical and biological analysis of Mek1 phosphorylation site mutants. , Huang W., Mol Biol Cell. March 1, 1995; 6 (3): 237-45.
Xenopus Gq alpha subunit activates the phosphatidylinositol pathway in Xenopus oocytes but does not consistently induce oocyte maturation. , Guttridge KL., Proc Natl Acad Sci U S A. February 28, 1995; 92 (5): 1297-301.
Activation of intracellular kinases in Xenopus oocytes by p21ras and phospholipases: a comparative study. , Carnero A., Mol Cell Biol. February 1, 1995; 15 (2): 1094-101.
Ras-dependent maturation of Xenopus oocytes is blocked by modified peptides of GTPase activating protein (GAP). , Losardo JE., Int J Pept Protein Res. February 1, 1995; 45 (2): 194-9.
Two distinct pathways for the localization of RNAs at the vegetal cortex in Xenopus oocytes. , Kloc M ., Development. February 1, 1995; 121 (2): 287-97.
The NIMA kinase: a mitotic regulator in Aspergillus nidulans and vertebrate cells. , Lu KP., Prog Cell Cycle Res. January 1, 1995; 1 187-205.
Patterns of localization and cytoskeletal association of two vegetally localized RNAs, Vg1 and Xcat-2. , Forristall C., Development. January 1, 1995; 121 (1): 201-8.
Homology between mitochondriogenesis in the avian and amphibian oocyte. , D'Herde K., Reprod Nutr Dev. January 1, 1995; 35 (3): 305-11.
Analysis of the Ras p21/mitogen-activated protein kinase signaling in vitro and in Xenopus oocytes. , Fukuda M., J Biol Chem. December 30, 1994; 269 (52): 33097-101.
Forskolin and methylxanthines block the increase in intracellular pH during meiosis in Xenopus laevis oocytes. , Rezai K., Biochem Biophys Res Commun. December 15, 1994; 205 (2): 979-83.
Meiosis-specific cell cycle regulation in maturing Xenopus oocytes. , Ohsumi K., J Cell Sci. November 1, 1994; 107 ( Pt 11) 3005-13.
Characterization and subcellular localization of ribonuclease H activities from Xenopus laevis oocytes. , Cazenave C., J Biol Chem. October 7, 1994; 269 (40): 25185-92.
Human p80- coilin is targeted to sphere organelles in the amphibian germinal vesicle. , Wu Z., Mol Biol Cell. October 1, 1994; 5 (10): 1119-27.
Characterization of a 78-residue fragment of c-Raf-1 that comprises a minimal binding domain for the interaction with Ras-GTP. , Scheffler JE., J Biol Chem. September 2, 1994; 269 (35): 22340-6.
Progesterone but not ras requires MPF for in vivo activation of MAPK and S6 KII: MAPK is an essential conexion point of both signaling pathways. , Carnero A., J Cell Biochem. August 1, 1994; 55 (4): 465-76.
Expression and activity of p40MO15, the catalytic subunit of cdk-activating kinase, during Xenopus oogenesis and embryogenesis. , Brown AJ., Mol Biol Cell. August 1, 1994; 5 (8): 921-32.
Disruption of c- mos causes parthenogenetic development of unfertilized mouse eggs. , Colledge WH., Nature. July 7, 1994; 370 (6484): 65-8.
Requirement for the MAP kinase kinase/ MAP kinase cascade in Xenopus oocyte maturation. , Kosako H., EMBO J. May 1, 1994; 13 (9): 2131-8.
Confocal microscopy of F-actin distribution in Xenopus oocytes. , Roeder AD., Zygote. May 1, 1994; 2 (2): 111-24.
A Xenopus maternal effect mutant gene affects oocyte meiotic reinitiation and fertilization. , de Vantéry C., J Exp Zool. April 1, 1994; 268 (5): 410-9.
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.
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.
Farnesylation of p21 Ras proteins in Xenopus oocytes. , Zhao J., Cell Mol Biol Res. January 1, 1994; 40 (4): 313-21.
Gamma-tubulin is asymmetrically distributed in the cortex of Xenopus oocytes. , Gard DL ., Dev Biol. January 1, 1994; 161 (1): 131-40.
Xwnt-11: a maternally expressed Xenopus wnt gene. , Ku M., Development. December 1, 1993; 119 (4): 1161-73.
Insulin-stimulated oocyte maturation requires insulin receptor substrate 1 and interaction with the SH2 domains of phosphatidylinositol 3-kinase. , Chuang LM., Mol Cell Biol. November 1, 1993; 13 (11): 6653-60.
Behavior of the components of maturation-promoting factor, cdc2 kinase and cyclin B, during oocyte maturation of goldfish. , Katsu Y., Dev Biol. November 1, 1993; 160 (1): 99-107.
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.
Requirement for Raf and MAP kinase function during the meiotic maturation of Xenopus oocytes. , Fabian JR., J Cell Biol. August 1, 1993; 122 (3): 645-52.
Requirements for nuclear translocation and nucleolar accumulation of nucleolin of Xenopus laevis. , Messmer B., Eur J Cell Biol. August 1, 1993; 61 (2): 369-82.
Microinjection of acylphosphatase blocks Xenopus laevis oocytes maturation induced by ras- p21. , Dolfi F., FEBS Lett. July 12, 1993; 326 (1-3): 167-70.
U7 small nuclear RNA in C snurposomes of the Xenopus germinal vesicle. , Wu CH ., Proc Natl Acad Sci U S A. July 1, 1993; 90 (13): 6257-9.
Raf-1 protein kinase is important for progesterone-induced Xenopus oocyte maturation and acts downstream of mos. , Muslin AJ., Mol Cell Biol. July 1, 1993; 13 (7): 4197-202.
Regulation of Xenopus c- myc promoter activity in oocytes and embryos. , Modak SP., Oncogene. March 1, 1993; 8 (3): 645-54.
Inhibition of mos-induced oocyte maturation by protein kinase A. , Daar I ., J Cell Biol. March 1, 1993; 120 (5): 1197-202.
Mutations on 170Glu, a substrate recognition residue in mouse cAMP-dependent protein kinase, generate enzymes with altered substrate affinity and biological functions. , Tomoda T., Biochim Biophys Acta. February 17, 1993; 1175 (3): 333-42.
p21ras-induced meiotic maturation of Xenopus oocytes in the absence of protein synthesis: MPF activation is preceded by activation of MAP and S6 kinases. , Nebreda AR., Oncogene. February 1, 1993; 8 (2): 467-77.
Identification of the SH3 domain of GAP as an essential sequence for Ras-GAP-mediated signaling. , Duchesne M., Science. January 22, 1993; 259 (5094): 525-8.
Control of metaphase I formation in Xenopus oocyte: effects of an indestructible cyclin B and of protein synthesis. , Huchon D., Biol Cell. January 1, 1993; 77 (2): 133-41.
Assembly and localization of the U1-specific snRNP C protein in the amphibian oocyte. , Jantsch MF., J Cell Biol. December 1, 1992; 119 (5): 1037-46.
Host cell factors controlling vimentin organization in the Xenopus oocyte. , Dent JA., J Cell Biol. November 1, 1992; 119 (4): 855-66.
Protein kinase C mutants in the auto-inhibitory region exhibit two distinct properties. , Muramatsu M., FEBS Lett. October 12, 1992; 311 (1): 75-9.
Cyclin B in fish oocytes: its cDNA and amino acid sequences, appearance during maturation, and induction of p34cdc2 activation. , Hirai T., Mol Reprod Dev. October 1, 1992; 33 (2): 131-40.
Lysophosphatidic acid induces a pertussis toxin-sensitive Ca(2+)-activated Cl- current in Xenopus laevis oocytes. , Durieux ME., Am J Physiol. October 1, 1992; 263 (4 Pt 1): C896-900.
Maturation-specific deadenylation in Xenopus oocytes requires nuclear and cytoplasmic factors. , Varnum SM., Dev Biol. October 1, 1992; 153 (2): 283-90.
Maturation of Xenopus laevis oocyte by progesterone requires poly(A) tail elongation of mRNA. , Kuge H., Exp Cell Res. September 1, 1992; 202 (1): 52-8.
The antibiotic azatyrosine suppresses progesterone or [Val12]p21 Ha-ras/ insulin-like growth factor I-induced germinal vesicle breakdown and tyrosine phosphorylation of Xenopus mitogen-activated protein kinase in oocytes. , Campa MJ., Proc Natl Acad Sci U S A. August 15, 1992; 89 (16): 7654-8.
Stimulation of mitogen-activated protein kinase by oncogenic Ras p21 in Xenopus oocytes. Requirement for Ras p21-GTPase-activating protein interaction. , Pomerance M., J Biol Chem. August 15, 1992; 267 (23): 16155-60.
Expression of DNA ligases I and II during oogenesis and early development of Xenopus laevis. , Aoufouchi S., Dev Biol. July 1, 1992; 152 (1): 199-202.
Synthesis and modification of D7 protein during Xenopus oocyte maturation. , Smith RC ., Mol Reprod Dev. July 1, 1992; 32 (3): 293-301.