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Summary Expression Phenotypes Gene Literature (112) GO Terms (15) Nucleotides (214) Proteins (66) Interactants (355) Wiki
XB-GENEPAGE-946166

Papers associated with cpeb1



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CPEB is a specificity factor that mediates cytoplasmic polyadenylation during Xenopus oocyte maturation., Hake LE, Richter JD., Cell. November 18, 1994; 79 (4): 617-27.

CPEB controls the cytoplasmic polyadenylation of cyclin, Cdk2 and c-mos mRNAs and is necessary for oocyte maturation in Xenopus., Stebbins-Boaz B, Hake LE, Richter JD., EMBO J. May 15, 1996; 15 (10): 2582-92.

Mouse cytoplasmic polyadenylylation element binding protein: an evolutionarily conserved protein that interacts with the cytoplasmic polyadenylylation elements of c-mos mRNA., Gebauer F, Richter JD., Proc Natl Acad Sci U S A. December 10, 1996; 93 (25): 14602-7.

The 36-kilodalton embryonic-type cytoplasmic polyadenylation element-binding protein in Xenopus laevis is ElrA, a member of the ELAV family of RNA-binding proteins., Wu L, Good PJ, Richter JD., Mol Cell Biol. November 1, 1997; 17 (11): 6402-9.

Specificity of RNA binding by CPEB: requirement for RNA recognition motifs and a novel zinc finger., Hake LE, Mendez R, Richter JD., Mol Cell Biol. February 1, 1998; 18 (2): 685-93.

Characterization of the zebrafish Orb/CPEB-related RNA binding protein and localization of maternal components in the zebrafish oocyte., Bally-Cuif L, Schatz WJ, Ho RK., Mech Dev. September 1, 1998; 77 (1): 31-47.

CPEB-mediated cytoplasmic polyadenylation and the regulation of experience-dependent translation of alpha-CaMKII mRNA at synapses., Wu L, Wells D, Tay J, Mendis D, Abbott MA, Barnitt A, Quinlan E, Heynen A, Fallon JR, Richter JD., Neuron. November 1, 1998; 21 (5): 1129-39.

Dual roles of p82, the clam CPEB homolog, in cytoplasmic polyadenylation and translational masking., Minshall N, Walker J, Dale M, Standart N., RNA. January 1, 1999; 5 (1): 27-38.

The clam 3' UTR masking element-binding protein p82 is a member of the CPEB family., Walker J, Minshall N, Hake L, Richter J, Standart N., RNA. January 1, 1999; 5 (1): 14-26.

Cytoplasmic polyadenylation elements mediate masking and unmasking of cyclin B1 mRNA., de Moor CH, Richter JD., EMBO J. April 15, 1999; 18 (8): 2294-303.

The Drosophila CPEB homolog, orb, is required for oskar protein expression in oocytes., Chang JS, Tan L, Schedl P., Dev Biol. November 1, 1999; 215 (1): 91-106.

Maskin is a CPEB-associated factor that transiently interacts with elF-4E., Stebbins-Boaz B, Cao Q, de Moor CH, Mendez R, Richter JD., Mol Cell. December 1, 1999; 4 (6): 1017-27.

Phosphorylation of CPE binding factor by Eg2 regulates translation of c-mos mRNA., Mendez R, Hake LE, Andresson T, Littlepage LE, Ruderman JV, Richter JD., Nature. March 16, 2000; 404 (6775): 302-7.

CPEB proteins control two key steps in spermatogenesis in C. elegans., Luitjens C, Gallegos M, Kraemer B, Kimble J, Wickens M., Genes Dev. October 15, 2000; 14 (20): 2596-609.

CPEB, maskin, and cyclin B1 mRNA at the mitotic apparatus: implications for local translational control of cell division., Groisman I, Huang YS, Mendez R, Cao Q, Theurkauf W, Richter JD., Cell. October 27, 2000; 103 (3): 435-47.        

Phosphorylation of CPEB by Eg2 mediates the recruitment of CPSF into an active cytoplasmic polyadenylation complex., Mendez R, Murthy KG, Ryan K, Manley JL, Richter JD., Mol Cell. November 1, 2000; 6 (5): 1253-9.

Translational control of embryonic cell division by CPEB and maskin., Groisman I, Huang YS, Mendez R, Cao Q, Richter JD., Cold Spring Harb Symp Quant Biol. January 1, 2001; 66 345-51.

Regulation of cell fate in Caenorhabditis elegans by a novel cytoplasmic polyadenylation element binding protein., Jin SW, Kimble J, Ellis RE., Dev Biol. January 15, 2001; 229 (2): 537-53.  

Identification and characterization of the gene encoding human cytoplasmic polyadenylation element binding protein., Welk JF, Charlesworth A, Smith GD, MacNicol AM., Gene. January 24, 2001; 263 (1-2): 113-20.

CPEB degradation during Xenopus oocyte maturation requires a PEST domain and the 26S proteasome., Reverte CG, Ahearn MD, Hake LE., Dev Biol. March 15, 2001; 231 (2): 447-58.

Think globally, translate locally: what mitotic spindles and neuronal synapses have in common., Richter JD., Proc Natl Acad Sci U S A. June 19, 2001; 98 (13): 7069-71.

CPEB phosphorylation and cytoplasmic polyadenylation are catalyzed by the kinase IAK1/Eg2 in maturing mouse oocytes., Hodgman R, Tay J, Mendez R, Richter JD., Development. July 1, 2001; 128 (14): 2815-22.

Translational control by CPEB: a means to the end., Mendez R, Richter JD., Nat Rev Mol Cell Biol. July 1, 2001; 2 (7): 521-9.

Poly(A) polymerase and the regulation of cytoplasmic polyadenylation., Dickson KS, Thompson SR, Gray NK, Wickens M., J Biol Chem. November 9, 2001; 276 (45): 41810-6.

A conserved role of a DEAD box helicase in mRNA masking., Minshall N, Thom G, Standart N., RNA. December 1, 2001; 7 (12): 1728-42.

Differential mRNA translation and meiotic progression require Cdc2-mediated CPEB destruction., Mendez R, Barnard D, Richter JD., EMBO J. April 2, 2002; 21 (7): 1833-44.

N-methyl-D-aspartate receptor signaling results in Aurora kinase-catalyzed CPEB phosphorylation and alpha CaMKII mRNA polyadenylation at synapses., Huang YS, Jung MY, Sarkissian M, Richter JD., EMBO J. May 1, 2002; 21 (9): 2139-48.

Translational control of the embryonic cell cycle., Groisman I, Jung MY, Sarkissian M, Cao Q, Richter JD., Cell. May 17, 2002; 109 (4): 473-83.

Dissolution of the maskin-eIF4E complex by cytoplasmic polyadenylation and poly(A)-binding protein controls cyclin B1 mRNA translation and oocyte maturation., Cao Q, Richter JD., EMBO J. July 15, 2002; 21 (14): 3852-62.

TACC3 expression and localization in the murine egg and ovary., Hao Z, Stoler MH, Sen B, Shore A, Westbrook A, Flickinger CJ, Herr JC, Coonrod SA., Mol Reprod Dev. November 1, 2002; 63 (3): 291-9.

Role of cdc2 kinase phosphorylation and conserved N-terminal proteolysis motifs in cytoplasmic polyadenylation-element-binding protein (CPEB) complex dissociation and degradation., Thom G, Minshall N, Git A, Argasinska J, Standart N., Biochem J. February 15, 2003; 370 (Pt 1): 91-100.

Biphasic activation of Aurora-A kinase during the meiosis I- meiosis II transition in Xenopus oocytes., Ma C, Cummings C, Liu XJ., Mol Cell Biol. March 1, 2003; 23 (5): 1703-16.

XGef is a CPEB-interacting protein involved in Xenopus oocyte maturation., Reverte CG, Yuan L, Keady BT, Lacza C, Attfield KR, Mahon GM, Freeman B, Whitehead IP, Hake LE., Dev Biol. March 15, 2003; 255 (2): 383-98.

Regulated CPEB phosphorylation during meiotic progression suggests a mechanism for temporal control of maternal mRNA translation., Tay J, Hodgman R, Sarkissian M, Richter JD., Genes Dev. June 15, 2003; 17 (12): 1457-62.

Involvement of Xenopus Pumilio in the translational regulation that is specific to cyclin B1 mRNA during oocyte maturation., Nakahata S, Kotani T, Mita K, Kawasaki T, Katsu Y, Nagahama Y, Yamashita M., Mech Dev. August 1, 2003; 120 (8): 865-80.

Two previously undescribed members of the mouse CPEB family of genes and their inducible expression in the principal cell layers of the hippocampus., Theis M, Si K, Kandel ER., Proc Natl Acad Sci U S A. August 5, 2003; 100 (16): 9602-7.

A neuronal isoform of CPEB regulates local protein synthesis and stabilizes synapse-specific long-term facilitation in aplysia., Si K, Giustetto M, Etkin A, Hsu R, Janisiewicz AM, Miniaci MC, Kim JH, Zhu H, Kandel ER., Cell. December 26, 2003; 115 (7): 893-904.    

A neuronal isoform of the aplysia CPEB has prion-like properties., Si K, Lindquist S, Kandel ER., Cell. December 26, 2003; 115 (7): 879-91.

Selective modulation of some forms of schaffer collateral-CA1 synaptic plasticity in mice with a disruption of the CPEB-1 gene., Alarcon JM, Hodgman R, Theis M, Huang YS, Kandel ER, Richter JD., Learn Mem. January 1, 2004; 11 (3): 318-27.

Progesterone and insulin stimulation of CPEB-dependent polyadenylation is regulated by Aurora A and glycogen synthase kinase-3., Sarkissian M, Mendez R, Richter JD., Genes Dev. January 1, 2004; 18 (1): 48-61.

The active form of Xp54 RNA helicase in translational repression is an RNA-mediated oligomer., Minshall N, Standart N., Nucleic Acids Res. February 24, 2004; 32 (4): 1325-34.

Cytoplasmic polyadenylation element (CPE)- and CPE-binding protein (CPEB)-independent mechanisms regulate early class maternal mRNA translational activation in Xenopus oocytes., Charlesworth A, Cox LL, MacNicol AM., J Biol Chem. April 23, 2004; 279 (17): 17650-9.

Symplekin and xGLD-2 are required for CPEB-mediated cytoplasmic polyadenylation., Barnard DC, Ryan K, Manley JL, Richter JD., Cell. November 24, 2004; 119 (5): 641-51.            

The translational regulator CPEB1 provides a link between dcp1 bodies and stress granules., Wilczynska A, Aigueperse C, Kress M, Dautry F, Weil D., J Cell Sci. March 1, 2005; 118 (Pt 5): 981-92.

XGef mediates early CPEB phosphorylation during Xenopus oocyte meiotic maturation., Martínez SE, Yuan L, Lacza C, Ransom H, Mahon GM, Whitehead IP, Hake LE., Mol Biol Cell. March 1, 2005; 16 (3): 1152-64.

The Xenopus TACC homologue, maskin, functions in mitotic spindle assembly., O'Brien LL, Albee AJ, Liu L, Tao W, Dobrzyn P, Lizarraga SB, Wiese C., Mol Biol Cell. June 1, 2005; 16 (6): 2836-47.

Vertebrate GLD2 poly(A) polymerases in the germline and the brain., Rouhana L, Wang L, Buter N, Kwak JE, Schiltz CA, Gonzalez T, Kelley AE, Landry CF, Wickens M., RNA. July 1, 2005; 11 (7): 1117-30.

Over-expression of Aurora-A targets cytoplasmic polyadenylation element binding protein and promotes mRNA polyadenylation of Cdk1 and cyclin B1., Sasayama T, Marumoto T, Kunitoku N, Zhang D, Tamaki N, Kohmura E, Saya H, Hirota T., Genes Cells. July 1, 2005; 10 (7): 627-38.          

Dose-dependent control of proliferation and sperm specification by FOG-1/CPEB., Thompson BE, Bernstein DS, Bachorik JL, Petcherski AG, Wickens M, Kimble J., Development. August 1, 2005; 132 (15): 3471-81.

Differential phosphorylation controls Maskin association with eukaryotic translation initiation factor 4E and localization on the mitotic apparatus., Barnard DC, Cao Q, Richter JD., Mol Cell Biol. September 1, 2005; 25 (17): 7605-15.                

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