Publications By Catherine Jessus

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ARPP19 phosphorylation site evolution and the switch in cAMP control of oocyte maturation in vertebrates., Meneau F, Lapébie P, Daldello EM, Le T, Chevalier S, Assaf S, Houliston E, Jessus C, Miot M., Development. November 22, 2024;

The M-phase regulatory phosphatase PP2A-B55δ opposes protein kinase A on Arpp19 to initiate meiotic division., Lemonnier T, Daldello EM, Poulhe R, Le T, Miot M, Lignières L, Jessus C, Dupré A., Nat Commun. March 23, 2021; 12 (1): 1837.

Translational Control of Xenopus Oocyte Meiosis: Toward the Genomic Era., Meneau F, Dupré A, Jessus C, Daldello EM., Cells. June 19, 2020; 9 (6):

Managing the Oocyte Meiotic Arrest-Lessons from Frogs and Jellyfish., Jessus C, Munro C, Houliston E., Cells. May 7, 2020; 9 (5):

Correction: Polo-like kinase confers MPF autoamplification competence to growing Xenopus oocytes (doi:10.1242/dev.01050)., Karaiskou A, Leprêtre AC, Pahlavan G, Du Pasquier D, Ozon R, Jessus C., Development. July 30, 2018; 145 (14):

Publisher''s Note: Progesterone regulates the accumulation and the activation of Eg2 kinase in Xenopus oocytes (J. Cell Sci. 113, 1127-1138)., Frank-Vaillant M, Haccard O, Thibier C, Ozon R, Arlot-Bonnemains Y, Prigent C, Jessus C., J Cell Sci. July 30, 2018; 131 (14):

Correction: The phosphorylation of ARPP19 by Greatwall renders the auto-amplification of MPF independently of PKA in Xenopus oocytes (doi:10.1242/jcs.126599)., Dupré A, Buffin E, Roustan C, Nairn AC, Jessus C, Haccard O., J Cell Sci. July 30, 2018; 131 (14):

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. February 1, 2018; 131 (3):

The greatwall kinase is dominant over PKA in controlling the antagonistic function of ARPP19 in Xenopus oocytes., Dupré AI, Haccard O, Jessus C., Cell Cycle. August 3, 2017; 16 (15): 1440-1452.

Control of Cdc6 accumulation by Cdk1 and MAPK is essential for completion of oocyte meiotic divisions in Xenopus., Daldello EM, Le T, Poulhe R, Jessus C, Haccard O, Dupré A., J Cell Sci. July 15, 2015; 128 (14): 2482-96.

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. January 1, 2014; 5 3318.

The phosphorylation of ARPP19 by Greatwall renders the auto-amplification of MPF independently of PKA in Xenopus oocytes., Dupré A, Buffin E, Roustan C, Nairn AC, Jessus C, Haccard O., J Cell Sci. September 1, 2013; 126 (Pt 17): 3916-26.

Naturally occurring steroids in Xenopus oocyte during meiotic maturation. Unexpected presence and role of steroid sulfates., Haccard O, Dupré A, Liere P, Pianos A, Eychenne B, Jessus C, Ozon R., Mol Cell Endocrinol. October 15, 2012; 362 (1-2): 110-9.

A critical balance between Cyclin B synthesis and Myt1 activity controls meiosis entry in Xenopus oocytes., Gaffré M, Martoriati A, Belhachemi N, Chambon JP, Houliston E, Jessus C, Karaiskou A., Development. September 1, 2011; 138 (17): 3735-44.

Greatwall kinase, ARPP-19 and protein phosphatase 2A: shifting the mitosis paradigm., Haccard O, Jessus C., Results Probl Cell Differ. January 1, 2011; 53 219-34.

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.

Identification of structural and functional O-linked N-acetylglucosamine-bearing proteins in Xenopus laevis oocyte., Dehennaut V, Slomianny MC, Page A, Vercoutter-Edouart AS, Jessus C, Michalski JC, Vilain JP, Bodart JF, Lefebvre T., Mol Cell Proteomics. November 1, 2008; 7 (11): 2229-45.

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.

Fertilization: calcium''s double punch., Jessus C, Haccard O., Nature. September 20, 2007; 449 (7160): 297-8.

Deciphering the H-Ras pathway in Xenopus oocyte., Gaffré M, Dupré A, Valuckaite R, Suziedelis K, Jessus C, Haccard O., Oncogene. August 24, 2006; 25 (37): 5155-62.

Redundant pathways for Cdc2 activation in Xenopus oocyte: either cyclin B or Mos synthesis., Haccard O, Jessus C., EMBO Rep. March 1, 2006; 7 (3): 321-5.

Differential regulation of Cdc2 and Aurora-A in Xenopus oocytes: a crucial role of phosphatase 2A., Maton G, Lorca T, Girault JA, Ozon R, Jessus C., J Cell Sci. June 1, 2005; 118 (Pt 11): 2485-94.

How does Xenopus oocyte acquire its competence to undergo meiotic maturation?, Jessus C, Ozon R., Biol Cell. April 1, 2004; 96 (3): 187-92.

Polo-like kinase confers MPF autoamplification competence to growing Xenopus oocytes., Karaiskou A, Leprêtre AC, Pahlavan G, Du Pasquier D, Ozon R, Jessus C., Development. April 1, 2004; 131 (7): 1543-52.

Activation of Cdc2 kinase during meiotic maturation of axolotl oocyte., Vaur S, Poulhe R, Maton G, Andéol Y, Jessus C., Dev Biol. March 15, 2004; 267 (2): 265-78.

Cdc2-cyclin B triggers H3 kinase activation of Aurora-A in Xenopus oocytes., Maton G, Thibier C, Castro A, Lorca T, Prigent C, Jessus C., J Biol Chem. June 13, 2003; 278 (24): 21439-49.

Xenopus H-RasV12 promotes entry into meiotic M phase and cdc2 activation independently of Mos and p42(MAPK)., Dupré A, Suziedelis K, Valuckaite R, de Gunzburg J, Ozon R, Jessus C, Haccard O., Oncogene. September 19, 2002; 21 (42): 6425-33.

Thr-161 phosphorylation of monomeric Cdc2. Regulation by protein phosphatase 2C in Xenopus oocytes., De Smedt V, Poulhe R, Cayla X, Dessauge F, Karaiskou A, Jessus C, Ozon R., J Biol Chem. August 9, 2002; 277 (32): 28592-600.

Mos is not required for the initiation of meiotic maturation in Xenopus oocytes., Dupré A, Jessus C, Ozon R, Haccard O., EMBO J. August 1, 2002; 21 (15): 4026-36.

Membrane-anchored cyclin A2 triggers Cdc2 activation in Xenopus oocyte., Faivre J, Frank-Vaillant M, Poulhe R, Mouly H, Bréchot C, Sobczak-Thépot J, Jessus C., FEBS Lett. October 12, 2001; 506 (3): 243-8.

Differential regulation of Cdc2 and Cdk2 by RINGO and cyclins., Karaiskou A, Perez LH, Ferby I, Ozon R, Jessus C, Nebreda AR., J Biol Chem. September 21, 2001; 276 (38): 36028-34.

From progesterone to active Cdc2 in Xenopus oocytes: a puzzling signalling pathway., Karaiskou A, Dupré A, Haccard O, Jessus C., Biol Cell. September 1, 2001; 93 (1-2): 35-46.

Interplay between Cdc2 kinase and the c-Mos/MAPK pathway between metaphase I and metaphase II in Xenopus oocytes., Frank-Vaillant M, Haccard O, Ozon R, Jessus C., Dev Biol. March 1, 2001; 231 (1): 279-88.

Progesterone regulates the accumulation and the activation of Eg2 kinase in Xenopus oocytes., Frank-Vaillant M, Haccard O, Thibier C, Ozon R, Arlot-Bonnemains Y, Prigent C, Jessus C., J Cell Sci. April 1, 2000; 113 ( Pt 7) 1127-38.

Phosphatase 2A and polo kinase, two antagonistic regulators of cdc25 activation and MPF auto-amplification., Karaïskou A, Jessus C, Brassac T, Ozon R., J Cell Sci. November 1, 1999; 112 ( Pt 21) 3747-56.

Two distinct mechanisms control the accumulation of cyclin B1 and Mos in Xenopus oocytes in response to progesterone., Frank-Vaillant M, Jessus C, Ozon R, Maller JL, Haccard O., Mol Biol Cell. October 1, 1999; 10 (10): 3279-88.

In vitro binding of free cdc2 and raf kinase to membrane vesicles: a possible new regulatory mechanism for cdc2 kinase activation in Xenopus oocyte., De Smedt V, Crozet N, Jessus C., Microsc Res Tech. April 1, 1999; 45 (1): 13-30.

Inhibition of small G proteins by clostridium sordellii lethal toxin activates cdc2 and MAP kinase in Xenopus oocytes., Rime H, Talbi N, Popoff MR, Suziedelis K, Jessus C, Ozon R., Dev Biol. December 15, 1998; 204 (2): 592-602.

Ras family proteins: new players involved in the diplotene arrest of Xenopus oocytes., Jessus C, Rime H, Ozon R., Biol Cell. November 1, 1998; 90 (8): 573-83.

MPF amplification in Xenopus oocyte extracts depends on a two-step activation of cdc25 phosphatase., Karaïskou A, Cayla X, Haccard O, Jessus C, Ozon R., Exp Cell Res. November 1, 1998; 244 (2): 491-500.

Human retinoblastoma protein (Rb) is phosphorylated by cdc2 kinase and MAP kinase in Xenopus maturing oocytes., Taieb F, Karaiskou A, Rime H, Jessus C., FEBS Lett. April 3, 1998; 425 (3): 465-71.

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.

In vivo regulation of cytostatic activity in Xenopus metaphase II-arrested oocytes., Thibier C, De Smedt V, Poulhe R, Huchon D, Jessus C, Ozon R., Dev Biol. May 1, 1997; 185 (1): 55-66.

Xenopus cyclin D2: cloning and expression in oocytes and during early development., Taïeb F, Jessus C., Biol Cell. January 1, 1996; 88 (3): 99-111.

Inhibition of glycosphingolipid synthesis induces p34cdc2 activation in Xenopus oocyte., De Smedt V, Rime H, Jessus C, Ozon R., FEBS Lett. November 20, 1995; 375 (3): 249-53.

Tyrosine phosphorylation of p34cdc2 is regulated by protein phosphatase 2A in growing immature Xenopus oocytes., Rime H, Jessus C, Ozon R., Exp Cell Res. July 1, 1995; 219 (1): 29-38.

Raf1 interaction with Cdc25 phosphatase ties mitogenic signal transduction to cell cycle activation., Galaktionov K, Jessus C, Beach D., Genes Dev. May 1, 1995; 9 (9): 1046-58.

Function and regulation of cdc25 protein phosphate through mitosis and meiosis., Jessus C, Ozon R., Prog Cell Cycle Res. January 1, 1995; 1 215-28.

Association of p34cdc2 kinase and MAP kinase with microtubules during the meiotic maturation of Xenopus oocytes., Fellous A, Kubelka M, Thibier C, Taieb F, Haccard O, Jessus C., Int J Dev Biol. December 1, 1994; 38 (4): 651-9.

Microinjection of Cdc25 protein phosphatase into Xenopus prophase oocyte activates MPF and arrests meiosis at metaphase I., Rime H, Huchon D, De Smedt V, Thibier C, Galaktionov K, Jessus C, Ozon R., Biol Cell. January 1, 1994; 82 (1): 11-22.

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