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Summary Expression Phenotypes Gene Literature (74) GO Terms (10) Nucleotides (179) Proteins (61) Interactants (484) Wiki
XB-GENEPAGE-1018616

Papers associated with mapk14



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Subcellular distribution in Xenopus laevis oocytes of a microinjected poly(A)-binding protein from Artemia salina gastrulae., De Herdt E, Marbaix G, Tencer R, Slegers H., Eur J Biochem. May 16, 1983; 132 (3): 623-7.

A 38,000-dalton membrane protein (p38) present in synaptic vesicles., Jahn R, Schiebler W, Ouimet C, Greengard P., Proc Natl Acad Sci U S A. June 1, 1985; 82 (12): 4137-41.

Overexpression of synaptophysin enhances neurotransmitter secretion at Xenopus neuromuscular synapses., Alder J, Kanki H, Valtorta F, Greengard P, Poo MM., J Neurosci. January 1, 1995; 15 (1 Pt 2): 511-9.            

Cloning of an epithelial chloride channel from bovine trachea., Cunningham SA, Awayda MS, Bubien JK, Ismailov II, Arrate MP, Berdiev BK, Benos DJ, Fuller CM., J Biol Chem. December 29, 1995; 270 (52): 31016-26.

Differential regulation of the MAP, SAP and RK/p38 kinases by Pyst1, a novel cytosolic dual-specificity phosphatase., Groom LA, Sneddon AA, Alessi DR, Dowd S, Keyse SM., EMBO J. July 15, 1996; 15 (14): 3621-32.

Activation of stress-activated protein kinase-3 (SAPK3) by cytokines and cellular stresses is mediated via SAPKK3 (MKK6); comparison of the specificities of SAPK3 and SAPK2 (RK/p38)., Cuenda A, Cohen P, Buée-Scherrer V, Goedert M., EMBO J. January 15, 1997; 16 (2): 295-305.

Activation of the novel stress-activated protein kinase SAPK4 by cytokines and cellular stresses is mediated by SKK3 (MKK6); comparison of its substrate specificity with that of other SAP kinases., Goedert M, Cuenda A, Craxton M, Jakes R, Cohen P., EMBO J. June 16, 1997; 16 (12): 3563-71.

Functional expression of a truncated Ca(2+)-activated Cl- channel and activation by phorbol ester., Ji HL, DuVall MD, Patton HK, Satterfield CL, Fuller CM, Benos DJ., Am J Physiol. February 1, 1998; 274 (2 Pt 1): C455-64.

Functional expression of a truncated Ca 2+ -activated Cl - channel and activation by phorbol ester., Ji HL, Duvall MD, Patton HK, Satterfield CL, Fuller CM, Benos DJ., Am J Physiol Cell Physiol. February 1, 1998; 274 (2): C455-C464.

Activation of the protein kinase p38 in the spindle assembly checkpoint and mitotic arrest., Takenaka K, Moriguchi T, Nishida E., Science. April 24, 1998; 280 (5363): 599-602.

Inhibition of MAPK pathway by a synthetic peptide corresponding to the activation segment of MAPK., Tokmakov AA, Sato K, Konaka K, Fukami Y., Biochem Biophys Res Commun. November 9, 1998; 252 (1): 214-9.

Concentration-dependent positive and negative regulation of a MAP kinase by a MAP kinase kinase., Kieran MW, Katz S, Vail B, Zon LI, Mayer BJ., Oncogene. November 18, 1999; 18 (48): 6647-57.

Cell swelling activates stress-activated protein kinases, p38 MAP kinase and JNK, in renal epithelial A6 cells., Niisato N, Post M, Van Driessche W, Marunaka Y., Biochem Biophys Res Commun. December 20, 1999; 266 (2): 547-50.

Kinase regulation of hENaC mediated through a region in the COOH-terminal portion of the alpha-subunit., Volk KA, Husted RF, Snyder PM, Stokes JB., Am J Physiol Cell Physiol. May 1, 2000; 278 (5): C1047-54.

Differential activation of p38 mitogen-activated protein kinase isoforms depending on signal strength., Alonso G, Ambrosino C, Jones M, Nebreda AR., J Biol Chem. December 22, 2000; 275 (51): 40641-8.

Specific association of a set of molecular chaperones including HSP90 and Cdc37 with MOK, a member of the mitogen-activated protein kinase superfamily., Miyata Y, Ikawa Y, Shibuya M, Nishida E., J Biol Chem. June 15, 2001; 276 (24): 21841-8.

Regulation of MAP kinase by the BMP-4/TAK1 pathway in Xenopus ectoderm., Goswami M, Uzgare AR, Sater AK., Dev Biol. August 15, 2001; 236 (2): 259-70.

Serum- and glucocorticoid-dependent kinase, cell volume, and the regulation of epithelial transport., Fillon S, Wärntges S, Matskevitch J, Moschen I, Setiawan I, Gamper N, Feng YX, Stegen C, Friedrich B, Waldegger S, Bröer S, Wagner CA, Huber SM, Klingel K, Vereninov A, Lang F., Comp Biochem Physiol A Mol Integr Physiol. October 1, 2001; 130 (3): 367-76.

Cell type-specific inhibition of the ETS transcription factor ER81 by mitogen-activated protein kinase-activated protein kinase 2., Janknecht R., J Biol Chem. November 9, 2001; 276 (45): 41856-61.

Role of JNK in hypertonic activation of Cl(-)-dependent Na(+)/H(+) exchange in Xenopus oocytes., Goss GG, Jiang L, Vandorpe DH, Kieller D, Chernova MN, Robertson M, Alper SL., Am J Physiol Cell Physiol. December 1, 2001; 281 (6): C1978-90.

Exposure to the herbicide acetochlor alters thyroid hormone-dependent gene expression and metamorphosis in Xenopus Laevis., Crump D, Werry K, Veldhoen N, Van Aggelen G, Helbing CC., Environ Health Perspect. December 1, 2002; 110 (12): 1199-205.

Apoptotic pathway and MAPKs differentially regulate chemotropic responses of retinal growth cones., Campbell DS, Holt CE., Neuron. March 27, 2003; 37 (6): 939-52.

Phosphorylation-dependent structural alterations in the small hsp30 chaperone are associated with cellular recovery., Fernando P, Megeney LA, Heikkila JJ., Exp Cell Res. June 10, 2003; 286 (2): 175-85.

Characterization of the interaction of the stress kinase SPAK with the Na+-K+-2Cl- cotransporter in the nervous system: evidence for a scaffolding role of the kinase., Piechotta K, Garbarini N, England R, Delpire E., J Biol Chem. December 26, 2003; 278 (52): 52848-56.

Regulation of the circadian oscillator in Xenopus retinal photoreceptors by protein kinases sensitive to the stress-activated protein kinase inhibitor, SB 203580., Hasegawa M, Cahill GM., J Biol Chem. May 21, 2004; 279 (21): 22738-46.

A new role for BMP5 during limb development acting through the synergic activation of Smad and MAPK pathways., Zuzarte-Luís V, Montero JA, Rodriguez-León J, Merino R, Rodríguez-Rey JC, Hurlé JM., Dev Biol. August 1, 2004; 272 (1): 39-52.

Role of TGF-beta1 and JNK signaling in capillary tube patterning., Bein K, Odell-Fiddler ET, Drinane M., Am J Physiol Cell Physiol. October 1, 2004; 287 (4): C1012-22.

From oogenesis through gastrulation: developmental regulation of apoptosis., Greenwood J, Gautier J., Semin Cell Dev Biol. April 1, 2005; 16 (2): 215-24.      

Plx1 is the 3F3/2 kinase responsible for targeting spindle checkpoint proteins to kinetochores., Wong OK, Fang G., J Cell Biol. August 29, 2005; 170 (5): 709-19.            

PBK/TOPK, a proliferating neural progenitor-specific mitogen-activated protein kinase kinase., Dougherty JD, Garcia AD, Nakano I, Livingstone M, Norris B, Polakiewicz R, Wexler EM, Sofroniew MV, Kornblum HI, Geschwind DH., J Neurosci. November 16, 2005; 25 (46): 10773-85.

p38 MAP kinase regulates the expression of XMyf5 and affects distinct myogenic programs during Xenopus development., Keren A, Bengal E, Frank D., Dev Biol. December 1, 2005; 288 (1): 73-86.              

Temporally and spatially coordinated roles for Rho, Rac, Cdc42 and their effectors in growth cone guidance by a physiological electric field., Rajnicek AM, Foubister LE, McCaig CD., J Cell Sci. May 1, 2006; 119 (Pt 9): 1723-35.

The p38 MAPK signaling pathway: a major regulator of skeletal muscle development., Keren A, Tamir Y, Bengal E., Mol Cell Endocrinol. June 27, 2006; 252 (1-2): 224-30.

Slug stability is dynamically regulated during neural crest development by the F-box protein Ppa., Vernon AE, LaBonne C., Development. September 1, 2006; 133 (17): 3359-70.                

Chk1- and claspin-dependent but ATR/ATM- and Rad17-independent DNA replication checkpoint response in HeLa cells., Rodríguez-Bravo V, Guaita-Esteruelas S, Florensa R, Bachs O, Agell N., Cancer Res. September 1, 2006; 66 (17): 8672-9.

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.

Inhibitor of growth 4 (ING4) is up-regulated by a low K intake and suppresses renal outer medullary K channels (ROMK) by MAPK stimulation., Zhang X, Lin DH, Jin Y, Wang KS, Zhang Y, Babilonia E, Wang Z, Wang Z, Giebisch G, Han ZG, Wang WH., Proc Natl Acad Sci U S A. May 29, 2007; 104 (22): 9517-22.

Hypotonicity stimulates renal epithelial sodium transport by activating JNK via receptor tyrosine kinases., Taruno A, Niisato N, Marunaka Y., Am J Physiol Renal Physiol. July 1, 2007; 293 (1): F128-38.

Involvement of p38 MAPK in hypotonic stress-induced stimulation of beta- and gamma-ENaC expression in renal epithelium., Niisato N, Taruno A, Marunaka Y., Biochem Biophys Res Commun. July 6, 2007; 358 (3): 819-24.

Integrating patterning signals: Wnt/GSK3 regulates the duration of the BMP/Smad1 signal., Fuentealba LC, Eivers E, Ikeda A, Hurtado C, Kuroda H, Pera EM, De Robertis EM., Cell. November 30, 2007; 131 (5): 980-93.      

Genetic complementation screen identifies a mitogen-activated protein kinase phosphatase, MKP3, as a regulator of dopamine transporter trafficking., Mortensen OV, Larsen MB, Prasad BM, Amara SG., Mol Biol Cell. July 1, 2008; 19 (7): 2818-29.

A p38 MAPK-CREB pathway functions to pattern mesoderm in Xenopus., Keren A, Keren-Politansky A, Bengal E., Dev Biol. October 1, 2008; 322 (1): 86-94.        

Histone 2B (H2B) expression is confined to a proper NAD+/NADH redox status., Dai RP, Yu FX, Goh SR, Chng HW, Tan YL, Fu JL, Zheng L, Luo Y., J Biol Chem. October 3, 2008; 283 (40): 26894-901.

TGF-beta induces connexin43 gene expression in normal murine mammary gland epithelial cells via activation of p38 and PI3K/AKT signaling pathways., Tacheau C, Fontaine J, Loy J, Mauviel A, Verrecchia F., J Cell Physiol. December 1, 2008; 217 (3): 759-68.

Neural ectoderm-secreted FGF initiates the expression of Nkx2.5 in cardiac progenitors via a p38 MAPK/CREB pathway., Keren-Politansky A, Keren A, Bengal E., Dev Biol. November 15, 2009; 335 (2): 374-84.            

Nemo-like kinase, an essential effector of anterior formation, functions downstream of p38 mitogen-activated protein kinase., Ohnishi E, Goto T, Sato A, Kim MS, Iemura S, Ishitani T, Natsume T, Ohnishi J, Shibuya H., Mol Cell Biol. February 1, 2010; 30 (3): 675-83.  

Systematic discovery of nonobvious human disease models through orthologous phenotypes., McGary KL, Park TJ, Woods JO, Cha HJ, Wallingford JB, Marcotte EM., Proc Natl Acad Sci U S A. April 6, 2010; 107 (14): 6544-9.                                    

Phosphopeptide screen uncovers novel phosphorylation sites of Nedd4-2 that potentiate its inhibition of the epithelial Na+ channel., Hallows KR, Bhalla V, Oyster NM, Wijngaarden MA, Lee JK, Li H, Chandran S, Xia X, Huang Z, Chalkley RJ, Burlingame AL, Pearce D., J Biol Chem. July 9, 2010; 285 (28): 21671-8.

A Single Amino Acid Substitution Makes WNK4 Susceptible to SB 203580 and SB 202190., Glover M, Sweeny C, Davis B, O'Shaughnessy KM., Open Med Chem J. September 3, 2010; 4 57-61.        

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.              

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