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Summary Expression Gene Literature (202) GO Terms (18) Nucleotides (257) Proteins (35) Interactants (752) Wiki
XB-GENEPAGE-1001989

Papers associated with cdk2

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6 paper(s) referencing morpholinos

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Claspin - checkpoint adaptor and DNA replication factor., Smits VAJ, Cabrera E, Freire R, Gillespie DA., FEBS J. January 1, 2019; 286 (3): 441-455.


TPX2 level correlates with cholangiocarcinoma cell proliferation, apoptosis, and EMT., Zou Z, Zheng B, Li J, Lv X, Zhang H, Yu F, Kong L, Li Y, Yu M, Fang L, Liang B., Biomed Pharmacother. November 1, 2018; 107 1286-1293.


Protein interactomes of protein phosphatase 2A B55 regulatory subunits reveal B55-mediated regulation of replication protein A under replication stress., Wang F, Zhu S, Fisher LA, Wang W, Oakley GG, Li C, Peng A., Sci Rep. January 1, 2018; 8 (1): 2683.            


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.


Phosphorylation Dynamics Dominate the Regulated Proteome during Early Xenopus Development., Peuchen EH, Cox OF, Sun L, Hebert AS, Coon JJ, Champion MM, Dovichi NJ, Huber PW., Sci Rep. November 15, 2017; 7 (1): 15647.                          


The stability of Fbw7α in M-phase requires its phosphorylation by PKC., Zitouni S, Méchali F, Papin C, Choquet A, Roche D, Baldin V, Coux O, Bonne-Andrea C., PLoS One. January 1, 2017; 12 (8): e0183500.            


Tissue- and stage-specific Wnt target gene expression is controlled subsequent to β-catenin recruitment to cis-regulatory modules., Nakamura Y, de Paiva Alves E, Veenstra GJ, Hoppler S., Development. January 1, 2016; 143 (11): 1914-25.            


Overexpressed targeting protein for Xklp2 (TPX2) serves as a promising prognostic marker and therapeutic target for gastric cancer., Liang B, Zheng W, Fang L, Wu L, Zhou F, Yin X, Yu X, Zou Z., Cancer Biol Ther. January 1, 2016; 17 (8): 824-32.


Genome evolution in the allotetraploid frog Xenopus laevis., Session AM, Uno Y, Kwon T, Chapman JA, Toyoda A, Takahashi S, Fukui A, Hikosaka A, Suzuki A, Suzuki A, Kondo M, van Heeringen SJ, Quigley I, Heinz S, Ogino H, Ochi H, Hellsten U, Lyons JB, Simakov O, Putnam N, Stites J, Kuroki Y, Tanaka T, Michiue T, Watanabe M, Bogdanovic O, Lister R, Georgiou G, Paranjpe SS, van Kruijsbergen I, Shu S, Carlson J, Kinoshita T, Ohta Y, Mawaribuchi S, Jenkins J, Grimwood J, Schmutz J, Mitros T, Mozaffari SV, Suzuki Y, Haramoto Y, Yamamoto TS, Takagi C, Heald R, Miller K, Haudenschild C, Kitzman J, Nakayama T, Izutsu Y, Robert J, Robert J, Fortriede J, Burns K, Lotay V, Karimi K, Yasuoka Y, Dichmann DS, Flajnik MF, Houston DW, Shendure J, DuPasquier L, Vize PD, Zorn AM, Ito M, Marcotte EM, Wallingford JB, Ito Y, Asashima M, Ueno N, Matsuda Y, Veenstra GJ, Fujiyama A, Harland RM, Taira M, Rokhsar DS., Nature. January 1, 2016; 538 (7625): 336-343.                              


Prediction of Functionally Important Phospho-Regulatory Events in Xenopus laevis Oocytes., Johnson JR, Santos SD, Johnson T, Pieper U, Strumillo M, Wagih O, Sali A, Krogan NJ, Beltrao P., PLoS Comput Biol. August 1, 2015; 11 (8): e1004362.                            


The centrosome and its duplication cycle., Fu J, Hagan IM, Glover DM., Cold Spring Harb Perspect Biol. February 2, 2015; 7 (2): a015800.


Tight Chk1 Levels Control Replication Cluster Activation in Xenopus., Platel M, Goldar A, Wiggins JM, Barbosa P, Libeau P, Priam P, Narassimprakash H, Grodzenski X, Marheineke K., PLoS One. January 1, 2015; 10 (6): e0129090.                  


aPKC phosphorylates p27Xic1, providing a mechanistic link between apicobasal polarity and cell-cycle control., Sabherwal N, Thuret R, Lea R, Stanley P, Papalopulu N., Dev Cell. December 8, 2014; 31 (5): 559-71.                          


Phosphorylation in intrinsically disordered regions regulates the activity of Neurogenin2., McDowell GS, Hindley CJ, Lippens G, Landrieu I, Philpott A., BMC Biochem. November 6, 2014; 15 24.        


The phosphorylation status of Ascl1 is a key determinant of neuronal differentiation and maturation in vivo and in vitro., Ali FR, Cheng K, Kirwan P, Metcalfe S, Livesey FJ, Barker RA, Philpott A., Development. June 1, 2014; 141 (11): 2216-24.            


Exploiting polypharmacology for drug target deconvolution., Gujral TS, Peshkin L, Kirschner MW., Proc Natl Acad Sci U S A. April 1, 2014; 111 (13): 5048-53.        


Genome-wide expression profile of the response to spinal cord injury in Xenopus laevis reveals extensive differences between regenerative and non-regenerative stages., Lee-Liu D, Moreno M, Almonacid LI, Tapia VS, Muñoz R, von Marées J, Gaete M, Melo F, Larraín J., Neural Dev. February 13, 2014; 9 12.              


Pin1 promotes histone H1 dephosphorylation and stabilizes its binding to chromatin., Raghuram N, Strickfaden H, McDonald D, Williams K, Fang H, Mizzen C, Hayes JJ, Th'ng J, Hendzel MJ., J Cell Biol. October 14, 2013; 203 (1): 57-71.              


Parvoviruses cause nuclear envelope breakdown by activating key enzymes of mitosis., Porwal M, Cohen S, Snoussi K, Popa-Wagner R, Anderson F, Dugot-Senant N, Wodrich H, Dinsart C, Kleinschmidt JA, Panté N, Kann M., PLoS Pathog. October 1, 2013; 9 (10): e1003671.                      


A genome-wide survey of maternal and embryonic transcripts during Xenopus tropicalis development., Paranjpe SS, Jacobi UG, van Heeringen SJ, Veenstra GJ., BMC Genomics. May 28, 2013; 14 762.              


Proteolysis of Xenopus Cip-type CDK inhibitor, p16Xic2, is regulated by PCNA binding and CDK2 phosphorylation., Zhu XN, Kim DH, Lin HR, Budhavarapu VN, Rosenbaum HB, Mueller PR, Yew PR., Cell Div. April 22, 2013; 8 (1): 5.              


SUMO2/3 modification of cyclin E contributes to the control of replication origin firing., Bonne-Andrea C, Kahli M, Mechali F, Lemaitre JM, Bossis G, Coux O., Nat Commun. January 1, 2013; 4 1850.        


On the molecular mechanisms of mitotic kinase activation., Bayliss R, Fry A, Haq T, Yeoh S., Open Biol. November 1, 2012; 2 (11): 120136.                  


An integrated chemical biology approach provides insight into Cdk2 functional redundancy and inhibitor sensitivity., Echalier A, Cot E, Camasses A, Hodimont E, Hoh F, Jay P, Sheinerman F, Krasinska L, Fisher D., Chem Biol. August 24, 2012; 19 (8): 1028-40.


Protein phosphatase 2A controls the order and dynamics of cell-cycle transitions., Krasinska L, Domingo-Sananes MR, Kapuy O, Parisis N, Harker B, Moorhead G, Rossignol M, Novák B, Fisher D., Mol Cell. November 4, 2011; 44 (3): 437-50.


Cell cycle-regulated multi-site phosphorylation of Neurogenin 2 coordinates cell cycling with differentiation during neurogenesis., Ali F, Hindley C, McDowell G, Deibler R, Jones A, Kirschner M, Guillemot F, Philpott A., Development. October 1, 2011; 138 (19): 4267-77.      


Cdk1 uncouples CtIP-dependent resection and Rad51 filament formation during M-phase double-strand break repair., Peterson SE, Li Y, Chait BT, Gottesman ME, Baer R, Gautier J., J Cell Biol. September 5, 2011; 194 (5): 705-20.              


WNK2 kinase is a novel regulator of essential neuronal cation-chloride cotransporters., Rinehart J, Vázquez N, Kahle KT, Hodson CA, Ring AM, Gulcicek EE, Louvi A, Bobadilla NA, Gamba G, Lifton RP., J Biol Chem. August 26, 2011; 286 (34): 30171-80.              


Developmental downregulation of Xenopus cyclin E is phosphorylation and nuclear import dependent and is mediated by ubiquitination., Brandt Y, Mitchell T, Wu Y, Hartley RS., Dev Biol. July 1, 2011; 355 (1): 65-76.


Direct regulation of Treslin by cyclin-dependent kinase is essential for the onset of DNA replication., Kumagai A, Shevchenko A, Shevchenko A, Dunphy WG., J Cell Biol. June 13, 2011; 193 (6): 995-1007.                


Identification of a polo-like kinase 4-dependent pathway for de novo centriole formation., Eckerdt F, Yamamoto TM, Lewellyn AL, Maller JL., Curr Biol. March 8, 2011; 21 (5): 428-32.


Deregulated Cdc6 inhibits DNA replication and suppresses Cdc7-mediated phosphorylation of Mcm2-7 complex., Kundu LR, Kumata Y, Kakusho N, Watanabe S, Furukohri A, Waga S, Seki M, Masai H, Enomoto T, Tada S., Nucleic Acids Res. September 1, 2010; 38 (16): 5409-18.              


GEMC1 is a TopBP1-interacting protein required for chromosomal DNA replication., Balestrini A, Cosentino C, Errico A, Garner E, Costanzo V., Nat Cell Biol. May 1, 2010; 12 (5): 484-91.        


Xenopus Bsx links daily cell cycle rhythms and pineal photoreceptor fate., D'Autilia S, Broccoli V, Barsacchi G, Andreazzoli M., Proc Natl Acad Sci U S A. April 6, 2010; 107 (14): 6352-7.          


Discovery of a distinct domain in cyclin A sufficient for centrosomal localization independently of Cdk binding., Pascreau G, Eckerdt F, Churchill ME, Maller JL., Proc Natl Acad Sci U S A. February 16, 2010; 107 (7): 2932-7.


Treslin collaborates with TopBP1 in triggering the initiation of DNA replication., Kumagai A, Shevchenko A, Shevchenko A, Dunphy WG., Cell. February 5, 2010; 140 (3): 349-59.                        


A bifunctional regulatory element in human somatic Wee1 mediates cyclin A/Cdk2 binding and Crm1-dependent nuclear export., Li C, Andrake M, Dunbrack R, Enders GH., Mol Cell Biol. January 1, 2010; 30 (1): 116-30.


Identification of substrates for cyclin dependent kinases., Errico A, Deshmukh K, Tanaka Y, Pozniakovsky A, Hunt T., Adv Enzyme Regul. January 1, 2010; 50 (1): 375-99.


Replication initiation complex formation in the absence of nuclear function in Xenopus., Krasinska L, Fisher D., Nucleic Acids Res. April 1, 2009; 37 (7): 2238-48.            


G2 acquisition by transcription-independent mechanism at the zebrafish midblastula transition., Dalle Nogare DE, Pauerstein PT, Lane ME., Dev Biol. February 1, 2009; 326 (1): 131-42.


Cyclin E in centrosome duplication and reduplication in sea urchin zygotes., Schnackenberg BJ, Marzluff WF, Sluder G., J Cell Physiol. December 1, 2008; 217 (3): 626-31.


Meiotic inactivation of Xenopus Myt1 by CDK/XRINGO, but not CDK/cyclin, via site-specific phosphorylation., Ruiz EJ, Hunt T, Nebreda AR., Mol Cell. October 24, 2008; 32 (2): 210-20.


Cyclin E-dependent localization of MCM5 regulates centrosome duplication., Ferguson RL, Maller JL., J Cell Sci. October 1, 2008; 121 (Pt 19): 3224-32.


Selective chemical inhibition as a tool to study Cdk1 and Cdk2 functions in the cell cycle., Krasinska L, Cot E, Fisher D., Cell Cycle. June 15, 2008; 7 (12): 1702-8.


Chk1 is activated at the midblastula transition in Xenopus laevis embryos independently of DNA content and the cyclin E/Cdk2 developmental timer., Adjerid N, Wroble BN, Sible JC., Cell Cycle. April 15, 2008; 7 (8): 1112-6.


Plx1 is required for chromosomal DNA replication under stressful conditions., Trenz K, Errico A, Costanzo V., EMBO J. March 19, 2008; 27 (6): 876-85.              


Negative regulation of cell-cycle progression by RINGO/Speedy E., Dinarina A, Ruiz EJ, O'Loghlen A, Mouron S, Perez L, Nebreda AR., Biochem J. March 15, 2008; 410 (3): 535-42.


Cdk1 and Cdk2 activity levels determine the efficiency of replication origin firing in Xenopus., Krasinska L, Besnard E, Cot E, Dohet C, Méchali M, Lemaitre JM, Fisher D., EMBO J. March 5, 2008; 27 (5): 758-69.


Wee1 kinase alters cyclin E/Cdk2 and promotes apoptosis during the early embryonic development of Xenopus laevis., Wroble BN, Finkielstein CV, Sible JC., BMC Dev Biol. October 25, 2007; 7 119.          


Anti-breast cancer activity of LFM-A13, a potent inhibitor of Polo-like kinase (PLK)., Uckun FM, Dibirdik I, Qazi S, Vassilev A, Ma H, Mao C, Benyumov A, Emami KH., Bioorg Med Chem. January 15, 2007; 15 (2): 800-14.

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