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Summary Expression Gene Literature (59) GO Terms (16) Nucleotides (752) Proteins (52) Interactants (182) Wiki
XB--1005598

Papers associated with ccnb2

Search for ccnb2 morpholinos using Textpresso

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2 paper(s) referencing morpholinos

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Ca2+-Induced Mitochondrial ROS Regulate the Early Embryonic Cell Cycle., Han Y, Ishibashi S, Iglesias-Gonzalez J, Chen Y, Love NR, Amaya E., Cell Rep. January 1, 2018; 22 (1): 218-231.                


Correction: Control of Cdc6 accumulation by Cdk1 and MAPK is essential for completion of oocyte meiotic divisions in Xenopus (doi:10.1242/jcs.166553)., Daldello EM, Le T, Poulhe R, Jessus C, Haccard O, Dupré A., J Cell Sci. January 1, 2018; 131 (3):


Expression variation and covariation impair analog and enable binary signaling control., Kovary KM, Taylor B, Zhao ML, Teruel MN., Mol Syst Biol. January 1, 2018; 14 (5): e7997.


Global decay of mRNA is a hallmark of apoptosis in aging Xenopus eggs., Tokmakov AA, Iguchi S, Iwasaki T, Fukami Y, Sato KI., RNA Biol. January 1, 2017; 14 (3): 339-346.          


Phosphorylation of ARPP19 by protein kinase A prevents meiosis resumption in Xenopus oocytes., Dupré A, Daldello EM, Nairn AC, Jessus C, Haccard O., Nat Commun. July 8, 2014; 5 3318.            


Control of timing of embryonic M-phase entry and exit is differentially sensitive to CDK1 and PP2A balance., El Dika M, Dudka D, Prigent C, Tassan JP, Kloc M, Kubiak JZ., Int J Dev Biol. January 1, 2014; 58 (10-12): 767-74.


Folic acid facilitates in vitro maturation of mouse and Xenopus laevis oocytes., Huang X, Gao S, Xia W, Hou S, Wu K., Br J Nutr. April 28, 2013; 109 (8): 1389-95.


Oncogenic Ras suppresses Cdk1 in a complex manner during the incubation of activated Xenopus egg extracts., Huang TL, Pian JP, Pan BT., Arch Biochem Biophys. April 15, 2013; 532 (2): 61-72.


Xenopus oocyte meiosis lacks spindle assembly checkpoint control., Shao H, Li R, Ma C, Chen E, Liu XJ., J Cell Biol. April 15, 2013; 201 (2): 191-200.          


The subcellular localization of cyclin B2 is required for bipolar spindle formation during Xenopus oocyte maturation., Yoshitome S, Furuno N, Prigent C, Hashimoto E., Biochem Biophys Res Commun. June 15, 2012; 422 (4): 770-5.    


Unfertilized frog eggs die by apoptosis following meiotic exit., Tokmakov AA, Iguchi S, Iwasaki T, Fukami Y., BMC Cell Biol. December 23, 2011; 12 56.              


Dynamic regulation of Emi2 by Emi2-bound Cdk1/Plk1/CK1 and PP2A-B56 in meiotic arrest of Xenopus eggs., Isoda M, Sako K, Suzuki K, Nishino K, Nakajo N, Ohe M, Ezaki T, Kanemori Y, Inoue D, Ueno H, Sagata N., Dev Cell. September 13, 2011; 21 (3): 506-19.              


Regulation of Greatwall kinase during Xenopus oocyte maturation., Yamamoto TM, Blake-Hodek K, Williams BC, Lewellyn AL, Goldberg ML, Maller JL., Mol Biol Cell. July 1, 2011; 22 (13): 2157-64.            


Limiting Ago protein restricts RNAi and microRNA biogenesis during early development in Xenopus laevis., Lund E, Sheets MD, Imboden SB, Dahlberg JE., Genes Dev. June 1, 2011; 25 (11): 1121-31.              


Effects of thioglycolic acid on parthenogenetic activation of Xenopus oocytes., Wang Z, Ren X, Wang D, Guan Y, Xia L., PLoS One. January 7, 2011; 6 (1): e16220.            


Unfertilized Xenopus eggs die by Bad-dependent apoptosis under the control of Cdk1 and JNK., Du Pasquier D, Dupré A, Jessus C., PLoS One. January 1, 2011; 6 (8): e23672.              


Enforcing temporal control of maternal mRNA translation during oocyte cell-cycle progression., Arumugam K, Wang Y, Hardy LL, MacNicol MC, MacNicol AM., EMBO J. January 20, 2010; 29 (2): 387-97.


Analyses of zebrafish and Xenopus oocyte maturation reveal conserved and diverged features of translational regulation of maternal cyclin B1 mRNA., Zhang Y, Sheets MD., BMC Dev Biol. September 9, 2009; 9 7.          


Evidence that phosphatidylinositol 3-kinase is involved in sperm-induced tyrosine kinase signaling in Xenopus egg fertilization., Mammadova G, Iwasaki T, Tokmakov AA, Fukami Y, Sato K., BMC Dev Biol. September 9, 2009; 9 68.        


ElrA and AUF1 differentially bind cyclin B2 mRNA., Guo X, Gourronc F, Audic Y, Lyons-Levy G, Mitchell T, Hartley RS., Biochem Biophys Res Commun. December 12, 2008; 377 (2): 653-657.


A ubiquitin-conjugating enzyme, ube2d3.2, regulates xMLK2 and pronephros formation in Xenopus., Jean S, Moss T., Differentiation. April 1, 2008; 76 (4): 431-41.                  


Roles of Greatwall kinase in the regulation of cdc25 phosphatase., Zhao Y, Haccard O, Wang R, Yu J, Kuang J, Jessus C, Goldberg ML., Mol Biol Cell. April 1, 2008; 19 (4): 1317-27.                        


Erp1/Emi2 is essential for the meiosis I to meiosis II transition in Xenopus oocytes., Ohe M, Inoue D, Kanemori Y, Sagata N., Dev Biol. March 1, 2007; 303 (1): 157-64.        


p42MAPK-mediated phosphorylation of xEIAP/XLX in Xenopus cytostatic factor-arrested egg extracts., Tsuchiya Y, Yamashita S., BMC Biochem. January 1, 2007; 8 5.        


Cyclin B2/cyclin-dependent kinase1 dissociation precedes CDK1 Thr-161 dephosphorylation upon M-phase promoting factor inactivation in Xenopus laevis cell-free extract., Chesnel F, Bazile F, Pascal A, Kubiak JZ., Int J Dev Biol. January 1, 2007; 51 (4): 297-305.


Differences in regulation of the first two M-phases in Xenopus laevis embryo cell-free extracts., Chesnel F, Vignaux F, Richard-Parpaillon L, Huguet A, Kubiak JZ., Dev Biol. September 15, 2005; 285 (2): 358-75.          


Inhibition of the anaphase-promoting complex by the Xnf7 ubiquitin ligase., Casaletto JB, Nutt LK, Wu Q, Moore JD, Etkin LD, Jackson PK, Hunt T, Kornbluth S., J Cell Biol. April 11, 2005; 169 (1): 61-71.              


Spindle checkpoint proteins Mad1 and Mad2 are required for cytostatic factor-mediated metaphase arrest., Tunquist BJ, Eyers PA, Chen LG, Lewellyn AL, Maller JL., J Cell Biol. December 22, 2003; 163 (6): 1231-42.            


The C-terminal seven amino acids in the cytoplasmic retention signal region of cyclin B2 are required for normal bipolar spindle formation in Xenopus oocytes and embryos., Yoshitome S, Furuno N, Hashimoto E, Sagata N., Mol Cancer Res. June 1, 2003; 1 (8): 589-97.


The RRASK motif in Xenopus cyclin B2 is required for the substrate recognition of Cdc25C by the cyclin B-Cdc2 complex., Goda T, Ishii T, Nakajo N, Sagata N, Kobayashi H., J Biol Chem. May 23, 2003; 278 (21): 19032-7.


Pre-M phase-promoting factor associates with annulate lamellae in Xenopus oocytes and egg extracts., Beckhelling C, Chang P, Chevalier S, Ford C, Houliston E., Mol Biol Cell. March 1, 2003; 14 (3): 1125-37.


A Method for Analyzing the Ubiquitination and Degradation of Aurora-A., Klotzbucher A, Pascreau G, Prigent C, Arlot-Bonnemains Y., Biol Proced Online. November 11, 2002; 4 62-69.        


Competence to replicate in the unfertilized egg is conferred by Cdc6 during meiotic maturation., Lemaître JM, Bocquet S, Méchali M., Nature. October 17, 2002; 419 (6908): 718-22.


Zygotic regulation of maternal cyclin A1 and B2 mRNAs., Audic Y, Anderson C, Bhatty R, Hartley RS., Mol Cell Biol. March 1, 2001; 21 (5): 1662-71.


Nuclei and microtubule asters stimulate maturation/M phase promoting factor (MPF) activation in Xenopus eggs and egg cytoplasmic extracts., Pérez-Mongiovi D, Beckhelling C, Chang P, Ford CC, Houliston E., J Cell Biol. September 4, 2000; 150 (5): 963-74.                  


Identification of cyk, a cyclin B2 kinase, as a novel calcium/calmodulin-dependent protein kinase II and its role during Xenopus laevis oocyte maturation., Stevens I, Derua R, Rondelez E, Waelkens E, Merlevede W, Goris J., Exp Cell Res. November 1, 1999; 252 (2): 303-18.


Inhibition of protein tyrosine phosphatases blocks calcium-induced activation of metaphase II-arrested oocytes of Xenopus laevis., Bodart JF, Béchard D, Bertout M, Rousseau A, Gannon J, Vilain JP, Flament S., FEBS Lett. August 27, 1999; 457 (2): 175-8.


Overexpression of the cytoplasmic retention signal region of cyclin B2, but not of cyclin B1, inhibits bipolar spindle formation in Xenopus oocytes., Yoshitome S, Furuno N, Sagata N., Biol Cell. October 1, 1998; 90 (6-7): 509-18.


Cell cycle analysis and synchronization of the Xenopus cell line XL2., Uzbekov R, Chartrain I, Philippe M, Arlot-Bonnemains Y., Exp Cell Res. July 10, 1998; 242 (1): 60-8.


Cyclin D2 arrests Xenopus early embryonic cell cycles., Taieb F, Chartrain I, Chevalier S, Haccard O, Jessus C., Exp Cell Res. December 15, 1997; 237 (2): 338-46.


Characterization and physiological importance of a novel cell cycle regulated protein kinase in Xenopus laevis oocytes that phosphorylates cyclin B2., Derua R, Stevens I, Waelkens E, Fernandez A, Lamb N, Merlevede W, Goris J., Exp Cell Res. February 1, 1997; 230 (2): 310-24.


In vivo regulation of the early embryonic cell cycle in Xenopus., Hartley RS, Rempel RE, Maller JL., Dev Biol. February 1, 1996; 173 (2): 408-19.


Ubiquitination of full-length cyclin., Mahaffey DT, Yoo Y, Rechsteiner M., FEBS Lett. August 14, 1995; 370 (1-2): 109-12.


Foot-and-mouth disease virus Lb proteinase can stimulate rhinovirus and enterovirus IRES-driven translation and cleave several proteins of cellular and viral origin., Ziegler E, Borman AM, Kirchweger R, Skern T, Kean KM., J Virol. June 1, 1995; 69 (6): 3465-74.


Cell cycle-regulated degradation of Xenopus cyclin B2 requires binding to p34cdc2., van der Velden HM, Lohka MJ., Mol Biol Cell. July 1, 1994; 5 (7): 713-24.


Destruction of Xenopus cyclins A and B2, but not B1, requires binding to p34cdc2., Stewart E, Kobayashi H, Harrison D, Hunt T., EMBO J. February 1, 1994; 13 (3): 584-94.


Changes in protein association with intracellular membranes of Xenopus laevis oocytes during maturation and activation., Duesbery NS, Masui Y., Zygote. May 1, 1993; 1 (2): 129-41.


Mitotic arrest caused by the amino terminus of Xenopus cyclin B2., van der Velden HM, Lohka MJ., Mol Cell Biol. March 1, 1993; 13 (3): 1480-8.


Initiation of translation of human rhinovirus RNA: mapping the internal ribosome entry site., Borman A, Jackson RJ., Virology. June 1, 1992; 188 (2): 685-96.


Evidence that Mos protein may not act directly on cyclin., Xu W, Ladner KJ, Smith LD., Proc Natl Acad Sci U S A. May 15, 1992; 89 (10): 4573-7.

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