Science 6 July 1990: Vol. 249. no. 4964, pp. 64 - 67 DOI: 10.1126/science.2164259

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Articles

Isolation of Intrinsically Active (MEK-independent) Variants of the ERK Family of Mitogen-activated Protein (MAP) Kinases.

V. Levin-Salomon, K. Kogan, N. G. Ahn, O. Livnah, and D. Engelberg (2008)
J. Biol. Chem. 283, 34500-34510
 |  Abstract »  |  Full Text »  |  PDF »

Mitogen-Activated Protein (MAP) Kinase/MAP Kinase Phosphatase Regulation: Roles in Cell Growth, Death, and Cancer.

T. Boutros, E. Chevet, and P. Metrakos (2008)
Pharmacol. Rev. 60, 261-310
 |  Abstract »  |  Full Text »  |  PDF »

Constitutively Active Rap2 Transgenic Mice Display Fewer Dendritic Spines, Reduced Extracellular Signal-Regulated Kinase Signaling, Enhanced Long-Term Depression, and Impaired Spatial Learning and Fear Extinction.

J. Ryu, K. Futai, M. Feliu, R. Weinberg, and M. Sheng (2008)
J. Neurosci. 28, 8178-8188
 |  Abstract »  |  Full Text »  |  PDF »

A Conserved Pathway That Controls c-Myc Protein Stability through Opposing Phosphorylation Events Occurs in Yeast.

J. R. Escamilla-Powers and R. C. Sears (2007)
J. Biol. Chem. 282, 5432-5442
 |  Abstract »  |  Full Text »  |  PDF »

Modulation of Replicative Senescence of Diploid Human Cells by Nuclear ERK Signaling.

M. Tresini, A. Lorenzini, C. Torres, and V. J. Cristofalo (2007)
J. Biol. Chem. 282, 4136-4151
 |  Abstract »  |  Full Text »  |  PDF »

Survival kinases in ischemic preconditioning and postconditioning.

D. J. Hausenloy and D. M. Yellon (2006)
Cardiovasc Res 70, 240-253
 |  Abstract »  |  Full Text »  |  PDF »

ERK1-Deficient Mice Show Normal T Cell Effector Function and Are Highly Susceptible to Experimental Autoimmune Encephalomyelitis.

T. Nekrasova, C. Shive, Y. Gao, K. Kawamura, R. Guardia, G. Landreth, and T. G. Forsthuber (2005)
J. Immunol. 175, 2374-2380
 |  Abstract »  |  Full Text »  |  PDF »

ERK1/2 and p38 regulate trophoblasts differentiation in human term placenta.

G. Daoud, M. Amyot, E. Rassart, A. Masse, L. Simoneau, and J. Lafond (2005)
J. Physiol. 566, 409-423
 |  Abstract »  |  Full Text »  |  PDF »

Tau Becomes a More Favorable Substrate for GSK-3 When It Is Prephosphorylated by PKA in Rat Brain.

S. J. Liu, J. Y. Zhang, H. L. Li, Z. Y. Fang, Q. Wang, H. M. Deng, C. X. Gong, I. Grundke-Iqbal, K. Iqbal, and J. Z. Wang (2004)
J. Biol. Chem. 279, 50078-50088
 |  Abstract »  |  Full Text »  |  PDF »

Adenosine 5'-Triphosphate Activates Nuclear Translocation of Mitogen-Activated Protein Kinases Leading to the Induction of Early Growth Response 1 and Raf Expression in Human Granulosa-Luteal Cells.

C.-J. Tai, S.-J. Chang, P. C. K. Leung, and C.-R. Tzeng (2004)
J. Clin. Endocrinol. Metab. 89, 5189-5195
 |  Abstract »  |  Full Text »  |  PDF »

Mitogen-activated protein kinase pathways and cardiac surgery.

T. A. Khan, C. Bianchi, M. Ruel, P. Voisine, and F. W. Sellke (2004)
J. Thorac. Cardiovasc. Surg. 127, 806-811
 |  Abstract »  |  Full Text »  |  PDF »

Inhibition of p38 Mitogen-Activated Protein Kinase Enhances Adrenergic-Stimulated Arylalkylamine N-Acetyltransferase Activity in Rat Pinealocytes.

J. R. Man, S. Rustaeus, D. M. Price, C. L. Chik, and A. K. Ho (2004)
Endocrinology 145, 1167-1174
 |  Abstract »  |  Full Text »  |  PDF »

Regulation of 90-Kilodalton Ribosomal S6 Kinase Phosphorylation in the Rat Pineal Gland.

A. K. Ho, M. Mackova, C. Cho, and C. L. Chik (2003)
Endocrinology 144, 3344-3350
 |  Abstract »  |  Full Text »  |  PDF »

Map kinase signaling pathways and hematologic malignancies.

L. C. Platanias (2003)
Blood 101, 4667-4679
 |  Abstract »  |  Full Text »  |  PDF »

The angiogenic regulator CD13/APN is a transcriptional target of Ras signaling pathways in endothelial morphogenesis.

S. V. Bhagwat, N. Petrovic, Y. Okamoto, and L. H. Shapiro (2003)
Blood 101, 1818-1826
 |  Abstract »  |  Full Text »  |  PDF »

Mitogen activated protein (MAP) kinase signal transduction pathways and novel anti-inflammatory targets.

D W Hommes, M P Peppelenbosch, and S J H van Deventer (2003)
Gut 52, 144-151
 |  Abstract »  |  Full Text »  |  PDF »

Stimulation of the Raf/MEK/ERK Cascade Is Necessary and Sufficient for Activation and Thr-160 Phosphorylation of a Nuclear-targeted CDK2.

N. H. Lents, S. M. Keenan, C. Bellone, and J. J. Baldassare (2002)
J. Biol. Chem. 277, 47469-47475
 |  Abstract »  |  Full Text »  |  PDF »

Murine Lyme Arthritis Development Mediated by p38 Mitogen-Activated Protein Kinase Activity.

J. Anguita, S. W. Barthold, R. Persinski, M. N. Hedrick, C. A. Huy, R. J. Davis, R. A. Flavell, and E. Fikrig (2002)
J. Immunol. 168, 6352-6357
 |  Abstract »  |  Full Text »  |  PDF »

Transactivation of Fra-1 and Consequent Activation of AP-1 Occur Extracellular Signal-Regulated Kinase Dependently.

M. R. Young, R. Nair, N. Bucheimer, P. Tulsian, N. Brown, C. Chapp, T.-C. Hsu, and N. H. Colburn (2002)
Mol. Cell. Biol. 22, 587-598
 |  Abstract »  |  Full Text »  |  PDF »

Activation of extracellular signal-related kinase by TNF-{alpha} controls the maturation and function of murine dendritic cells.

Y. Yanagawa, N. Iijima, K. Iwabuchi, and K. Onoe (2002)
J. Leukoc. Biol. 71, 125-132
 |  Abstract »  |  Full Text »  |  PDF »

The Regulation of MAPKs in Y1 Mouse Adrenocortical Tumor Cells.

T. Le and B. P. Schimmer (2001)
Endocrinology 142, 4282-4287
 |  Abstract »  |  Full Text »  |  PDF »

Mitogen-Activated Protein (MAP) Kinase Pathways: Regulation and Physiological Functions.

G. Pearson, F. Robinson, T. Beers Gibson, B.-e Xu, M. Karandikar, K. Berman, and M. H. Cobb (2001)
Endocr. Rev. 22, 153-183
 |  Abstract »  |  Full Text »

Adenosine Triphosphate Activates Mitogen-Activated Protein Kinase in Human Granulosa-Luteal Cells.

C.-J. Tai, S. K. Kang, C.-R. Tzeng, and P. C. K. Leung (2001)
Endocrinology 142, 1554-1560
 |  Abstract »  |  Full Text »

Role of Mitogen-Activated Protein Kinase in Prostaglandin F2{{alpha}} Action in Human Granulosa-Luteal Cells.

C.-J. Tai, S. K. Kang, K.-C. Choi, C.-R. Tzeng, and P. C. K. Leung (2001)
J. Clin. Endocrinol. Metab. 86, 375-380
 |  Abstract »  |  Full Text »

Increased expression of epidermal growth factor receptor in rat pleural mesothelial cells correlates with carcinogenicity of mineral fibres.

S. P. Faux, C. E. Houghton, A. Hubbard, and G. Patrick (2000)
Carcinogenesis 21, 2275-2280
 |  Abstract »  |  Full Text »  |  PDF »

p38MAPK Inhibition Enhances Basal and Norepinephrine-Stimulated p42/44MAPK Phosphorylation in Rat Pinealocytes.

M. Mackova, J. R. Man, C. L. Chik, and A. K. Ho (2000)
Endocrinology 141, 4202-4208
 |  Abstract »  |  Full Text »  |  PDF »

Cyclic stretch activates p38 SAPK2-, ErbB2-, and AT1-dependent signaling in bladder smooth muscle cells.

H. T. Nguyen, R. M. Adam, S. H. Bride, J. M. Park, C. A. Peters, and M. R. Freeman (2000)
Am J Physiol Cell Physiol 279, C1155-C1167
 |  Abstract »  |  Full Text »  |  PDF »

The PI3 kinase, p38 SAP kinase, and NF-kappa B signal transduction pathways are involved in the survival and maturation of lipopolysaccharide-stimulated human monocyte-derived dendritic cells.

K. M. Ardeshna, A. R. Pizzey, S. Devereux, and A. Khwaja (2000)
Blood 96, 1039-1046
 |  Abstract »  |  Full Text »  |  PDF »

A Natural ErbB4 Isoform That Does Not Activate Phosphoinositide 3-Kinase Mediates Proliferation but Not Survival or Chemotaxis.

V. Kainulainen, M. Sundvall, J. A. Maatta, E. Santiestevan, M. Klagsbrun, and K. Elenius (2000)
J. Biol. Chem. 275, 8641-8649
 |  Abstract »  |  Full Text »  |  PDF »

Selective induction of p38 mitogen-activated protein kinase activity following A6H co-stimulation in primary human CD4+ T cells.

T. Labuda, A. Sundstedt, and M. Dohlsten (2000)
Int. Immunol. 12, 253-261
 |  Abstract »  |  Full Text »  |  PDF »

Activation of Extracellular Signal-Regulated Protein Kinases Is Associated with a Sensitized Locomotor Response to D2 Dopamine Receptor Stimulation in Unilateral 6-Hydroxydopamine-Lesioned Rats.

G. Cai, X. Zhen, K. Uryu, and E. Friedman (2000)
J. Neurosci. 20, 1849-1857
 |  Abstract »  |  Full Text »  |  PDF »

MEKK3 Directly Regulates MEK5 Activity as Part of the Big Mitogen-activated Protein Kinase 1 (BMK1) Signaling Pathway.

T.-H. Chao, M. Hayashi, R. I. Tapping, Y. Kato, and J.-D. Lee (1999)
J. Biol. Chem. 274, 36035-36038
 |  Abstract »  |  Full Text »  |  PDF »

Defective Thymocyte Maturation in p44 MAP Kinase (Erk 1) Knockout Mice.

G. Pagès, S. Guérin, D. Grall, F. Bonino, A. Smith, F. Anjuere, P. Auberger, and J. Pouysségur (1999)
Science 286, 1374-1377
 |  Abstract »  |  Full Text »

Learning Induces a CDC2-Related Protein Kinase, KKIAMRE.

H. Gomi, W. Sun, C. E. Finch, S. Itohara, K. Yoshimi, and R. F. Thompson (1999)
J. Neurosci. 19, 9530-9537
 |  Abstract »  |  Full Text »  |  PDF »

JNK Activation Is Required for JB6 Cell Transformation Induced by Tumor Necrosis Factor-alpha but Not by 12-O-Tetradecanoylphorbol-13-Acetate.

C. Huang, J. Li, W.-Y. Ma, and Z. Dong (1999)
J. Biol. Chem. 274, 29672-29676
 |  Abstract »  |  Full Text »  |  PDF »

A Role for p38MAPK/HSP27 Pathway in Smooth Muscle Cell Migration.

J. C. Hedges, M. A. Dechert, I. A. Yamboliev, J. L. Martin, E. Hickey, L. A. Weber, and W. T. Gerthoffer (1999)
J. Biol. Chem. 274, 24211-24219
 |  Abstract »  |  Full Text »  |  PDF »

Prolonged Activation of ERK2 by Epidermal Growth Factor and Other Growth Factors Requires a Functional Insulin-Like Growth Factor 1 Receptor.

J. L. Swantek and R. Baserga (1999)
Endocrinology 140, 3163-3169
 |  Abstract »  |  Full Text »

Molecular Cloning and Expression of a Stress-responsive Mitogen-activated Protein Kinase-related Kinase from Tetrahymena Cells.

S. Nakashima, S. Wang, N. Hisamoto, H. Sakai, M. Andoh, K. Matsumoto, and Y. Nozawa (1999)
J. Biol. Chem. 274, 9976-9983
 |  Abstract »  |  Full Text »  |  PDF »

Relative Dependence of Different Outputs of the Saccharomyces cerevisiae Pheromone Response Pathway on the MAP Kinase Fus3p.

F. W. Farley, B. Satterberg, E. J. Goldsmith, and E. A. Elion (1999)
Genetics 151, 1425-1444
 |  Abstract »  |  Full Text »

Overexpression of Protein Kinase C Isoforms Protects RAW 264.7 Macrophages from Nitric Oxide-Induced Apoptosis: Involvement of c-Jun N-Terminal Kinase/Stress-Activated Protein Kinase, p38 Kinase, and CPP-32 Protease Pathways.

C.-D. Jun, C.-D. Oh, H.-J. Kwak, H.-O. Pae, J.-C. Yoo, B.-M. Choi, J.-S. Chun, R.-K. Park, and H.-T. Chung (1999)
J. Immunol. 162, 3395-3401
 |  Abstract »  |  Full Text »  |  PDF »

Murine p38-delta Mitogen-activated Protein Kinase, a Developmentally Regulated Protein Kinase That Is Activated by Stress and Proinflammatory Cytokines.

M. C.-T. Hu, Y.-p. Wang, A. Mikhail, W. R. Qiu, and T.-H. Tan (1999)
J. Biol. Chem. 274, 7095-7102
 |  Abstract »  |  Full Text »  |  PDF »

Mitogen-Activated Protein Kinase: Conservation of a Three-Kinase Module From Yeast to Human.

C. WIDMANN, S. GIBSON, M. B. JARPE, and G. L. JOHNSON (1999)
Physiol Rev 79, 143-180
 |  Abstract »  |  Full Text »  |  PDF »

Isolation of TAO1, a Protein Kinase That Activates MEKs in Stress-activated Protein Kinase Cascades.

M. Hutchison, K. S. Berman, and M. H. Cobb (1998)
J. Biol. Chem. 273, 28625-28632
 |  Abstract »  |  Full Text »  |  PDF »

Grb2 Interaction with MEK-Kinase 1 Is Involved in Regulation of Jun-Kinase Activities in Response to Epidermal Growth Factor.

M. Pomerance, M.-C. Multon, F. Parker, C. Venot, J.-P. Blondeau, B. Tocque, and F. Schweighoffer (1998)
J. Biol. Chem. 273, 24301-24304
 |  Abstract »  |  Full Text »  |  PDF »

Opposing Effects of Jun Kinase and p38 Mitogen-Activated Protein Kinases on Cardiomyocyte Hypertrophy.

S. Nemoto, Z. Sheng, and A. Lin (1998)
Mol. Cell. Biol. 18, 3518-3526
 |  Abstract »  |  Full Text »

Control of Lytic Function by Mitogen-activated Protein Kinase/Extracellular Regulatory Kinase 2 (ERK2) in a Human Natural Killer Cell Line: Identification of Perforin and Granzyme B Mobilization by Functional ERK2.

S. Wei, A. M. Gamero, J. H. Liu, A. A. Daulton, N. I. Valkov, J. A. Trapani, A. C. Larner, M. J. Weber, and J. Y. Djeu (1998)
J. Exp. Med. 187, 1753-1765
 |  Abstract »  |  Full Text »  |  PDF »

T-Cell Receptor Signaling Pathway Exerts a Negative Control on Thrombin-Mediated Increase in [Ca2+]i and p38 MAPK Activation in Jurkat T Cells: Implication of the Tyrosine Kinase p56Lck.

L. Maulon, S. Guerin, J.-E. Ricci, D. FarahiFar, J.-P. Breittmayer, and P. Auberger (1998)
Blood 91, 4232-4241
 |  Abstract »  |  Full Text »  |  PDF »

Inhibition of Mitogen-Activated Protein Kinase Kinase Blocks T Cell Proliferation But Does Not Induce or Prevent Anergy.

D. R. DeSilva, E. A. Jones, M. F. Favata, B. D. Jaffee, R. L. Magolda, J. M. Trzaskos, and P. A. Scherle (1998)
J. Immunol. 160, 4175-4181
 |  Abstract »  |  Full Text »  |  PDF »

Functional Significance of Cell Volume Regulatory Mechanisms.

F. LANG, G. L. BUSCH, M. RITTER, H. VOLKL, S. WALDEGGER, E. GULBINS, and D. HAUSSINGER (1998)
Physiol Rev 78, 247-306
 |  Abstract »  |  Full Text »  |  PDF »

Activation of Stress-activated Protein Kinases/c-Jun N-terminal Protein Kinases (SAPKs/JNKs) by a Novel Mitogen-activated Protein Kinase Kinase (MKK7).

Z. Yao, K. Diener, X. S. Wang, M. Zukowski, G. Matsumoto, G. Zhou, R. Mo, T. Sasaki, H. Nishina, C. C. Hui, et al. (1997)
J. Biol. Chem. 272, 32378-32383
 |  Abstract »  |  Full Text »  |  PDF »

Carvedilol, a Multiple-Action Neurohumoral Antagonist, Inhibits Mitogen-Activated Protein Kinase and Cell Cycle Progression in Vascular Smooth Muscle Cells.

C.-P. Sung, A. J. Arleth, C. Eichman, A. Truneh, and E. H. Ohlstein (1997)
J. Pharmacol. Exp. Ther. 283, 910-917
 |  Abstract »  |  Full Text »

Induction and Activation of Mitogen-activated Protein Kinases of Human Lymphocytes as One of the Signaling Pathways of the Immunomodulatory Effects of Morphine Sulfate.

L. F. Chuang, K. F. Killam Jr., and R. Y. Chuang (1997)
J. Biol. Chem. 272, 26815-26817
 |  Abstract »  |  Full Text »  |  PDF »

Identification of c-Jun NH2-terminal Protein Kinase (JNK)-activating Kinase 2 as an Activator of JNK but Not p38.

X. Lu, S. Nemoto, and A. Lin (1997)
J. Biol. Chem. 272, 24751-24754
 |  Abstract »  |  Full Text »  |  PDF »

Differential Regulation of Mitogen-Activated Protein/ERK Kinase (MEK)1 and MEK2 and Activation by a Ras-Independent Mechanism.

S. Xu, S. Khoo, A. Dang, S. Witt, V. Do, E. Zhen, E. M. Schaefer, and M. H. Cobb (1997)
Mol. Endocrinol. 11, 1618-1625
 |  Abstract »  |  Full Text »

Molecular Cloning and Characterization of a Novel p38 Mitogen-activated Protein Kinase.

X. S. Wang, K. Diener, C. L. Manthey, S.-w. Wang, B. Rosenzweig, J. Bray, J. Delaney, C. N. Cole, P.-Y. Chan-Hui, N. Mantlo, et al. (1997)
J. Biol. Chem. 272, 23668-23674
 |  Abstract »  |  Full Text »  |  PDF »

Cloning of a Novel Mitogen-activated Protein Kinase Kinase Kinase, MEKK4, That Selectively Regulates the c-Jun Amino Terminal Kinase Pathway.

P. Gerwins, J. L. Blank, and G. L. Johnson (1997)
J. Biol. Chem. 272, 8288-8295
 |  Abstract »  |  Full Text »  |  PDF »

The structure of mitogen-activated protein kinase p38 at 2.1-A resolution.

Z. Wang, P. C. Harkins, R. J. Ulevitch, J. Han, M. H. Cobb, and E. J. Goldsmith (1997)
PNAS 94, 2327-2332
 |  Abstract »  |  Full Text »  |  PDF »

MAP kinase in situ activation atlas during Drosophila embryogenesis.

L Gabay, R Seger, and B. Shilo (1997)
Development 124, 3535-3541
 |  Abstract »  |  PDF »

Protein kinase C activates the MEK-ERK pathway in a manner independent of Ras and dependent on Raf.

Y. Ueda, S. Hirai, S. Osada, A. Suzuki, K. Mizuno, and S. Ohno (1996)
J. Biol. Chem. 271, 23512-23519
 |  Abstract »  |  Full Text »  |  PDF »

Regulation of ERK (Extracellular Signal Regulated Kinase), Part of the Neurotrophin Signal Transduction Cascade, in the Rat Mesolimbic Dopamine System by Chronic Exposure to Morphine or Cocaine.

M. T. Berhow, N. Hiroi, and E. J. Nestler (1996)
J. Neurosci. 16, 4707-4715
 |  Abstract »  |  Full Text »  |  PDF »

Stimulation of Mitogen-activated Protein Kinase and Na+/H+ Exchanger in Human Platelets. DIFFERENTIAL EFFECT OF PHORBOL ESTER AND VASOPRESSIN.

O. Aharonovitz and Y. Granot (1996)
J. Biol. Chem. 271, 16494-16499
 |  Abstract »  |  Full Text »  |  PDF »

Characterization of a Protein Kinase that Phosphorylates Serine 189 of the Mitogen-activated Protein Kinase Homolog ERK3.

M. Cheng, E. Zhen, M. J. Robinson, D. Ebert, E. Goldsmith, and M. H. Cobb (1996)
J. Biol. Chem. 271, 12057-12062
 |  Abstract »  |  Full Text »  |  PDF »

ERK3 Is a Constitutively Nuclear Protein Kinase.

M. Cheng, T. G. Boulton, and M. H. Cobb (1996)
J. Biol. Chem. 271, 8951-8958
 |  Abstract »  |  Full Text »  |  PDF »

The Seven-transmembrane-spanning Receptors for Endothelin and Thrombin Cause Proliferation of Airway Smooth Muscle Cells and Activation of the Extracellular Regulated Kinase and c-Jun NH(2)-terminal Kinase Groups of Mitogen-activated Protein Kinases.

P. S. Shapiro, J. N. Evans, R. J. Davis, and J. A. Posada (1996)
J. Biol. Chem. 271, 5750-5754
 |  Abstract »  |  Full Text »  |  PDF »

Characterization of ERK1 Activation Site Mutants and the Effect on Recognition by MEK1 and MEK2.

E. R. Butch and K.-L. Guan (1996)
J. Biol. Chem. 271, 4230-4235
 |  Abstract »  |  Full Text »  |  PDF »

The relative roles of specific N- and C-terminal phosphorylation sites in the disassembly of intermediate filament in mitotic BHK-21 cells.

Y. Chou, P Opal, R. Quinlan, and R. Goldman (1996)
J. Cell Sci. 109, 817-826
 |  Abstract »  |  PDF »

Insulin Stimulation of Mitogen-activated Protein Kinase, p90[IMAGE], and p70 S6 Kinase in Skeletal Muscle of Normal and Insulin-resistant Mice.

P.-Y. Chang, Y. Le Marchand-Brustel, L. A. Cheatham, and D. E. Moller (1995)
J. Biol. Chem. 270, 29928-29935
 |  Abstract »  |  Full Text »  |  PDF »

Isolation of MEK5 and Differential Expression of Alternatively Spliced Forms.

J. M. English, C. A. Vanderbilt, S. Xu, S. Marcus, and M. H. Cobb (1995)
J. Biol. Chem. 270, 28897-28902
 |  Abstract »  |  Full Text »  |  PDF »

The Mouse p44 Mitogen-activated Protein Kinase (Extracellular Signal-regulated Kinase 1) Gene.

G. Pagès, E. R. Stanley, M. Le Gall, A. Brunet, and J. Pouysségur (1995)
J. Biol. Chem. 270, 26986-26992
 |  Abstract »  |  Full Text »  |  PDF »

How MAP Kinases Are Regulated.

M. H. Cobb and E. J. Goldsmith (1995)
J. Biol. Chem. 270, 14843-14846
 |  Full Text »  |  PDF »

Phosphotyrosine-Dependent Targeting of Mitogen-Activated Protein Kinase in Differentiated Contractile Vascular Cells.

R. A. Khalil, C. B. Menice, C.-L. A. Wang, and K. G. Morgan (1995)
Circ. Res. 76, 1101-1108
 |  Abstract »  |  Full Text »

Interleukin-13 Signal Transduction in Lymphohemopoietic Cells.

M. J. Welham, L. Learmonth, H. Bone, and J. W. Schrader (1995)
J. Biol. Chem. 270, 12286-12296
 |  Abstract »  |  Full Text »  |  PDF »

Pro-inflammatory Cytokines and Environmental Stress Cause p38 Mitogen-activated Protein Kinase Activation by Dual Phosphorylation on Tyrosine and Threonine.

J.ël Raingeaud, S. Gupta, M. Dickens, and J. Han (1995)
J. Biol. Chem. 270, 7420-7426
 |  Abstract »  |  Full Text »  |  PDF »

MEK-2, a Caenorhabditis elegans MAP kinase kinase, functions in Ras-mediated vulval induction and other developmental events..

Y Wu, M Han, and K L Guan (1995)
Genes & Dev. 9, 742-755
 |  Abstract »  |  PDF »

JNK2 contains a specificity-determining region responsible for efficient c-Jun binding and phosphorylation..

T Kallunki, B Su, I Tsigelny, H K Sluss, B Derijard, G Moore, R Davis, and M Karin (1994)
Genes & Dev. 8, 2996-3007
 |  Abstract »  |  PDF »

A MAP kinase homolog, mpk-1, is involved in ras-mediated induction of vulval cell fates in Caenorhabditis elegans..

M R Lackner, K Kornfeld, L M Miller, H R Horvitz, and S K Kim (1994)
Genes & Dev. 8, 160-173
 |  Abstract »  |  PDF »

Yeast homolog of mammalian mitogen-activated protein kinase, FUS3/DAC2 kinase, is required both for cell fusion and for G1 arrest of the cell cycle and morphological changes by the cdc37 mutation.

H. Fujimura (1994)
J. Cell Sci. 107, 2617-2622
 |  Abstract »  |  PDF »

Microtubule and chromatin behavior follow MAP kinase activity but not MPF activity during meiosis in mouse oocytes.

M. Verlhac, J. Kubiak, H. Clarke, and B Maro (1994)
Development 120, 1017-1025
 |  Abstract »  |  PDF »

An osmosensing signal transduction pathway in yeast.

J. Brewster, T de Valoir, N. Dwyer, E Winter, and M. Gustin (1993)
Science 259, 1760-1763
 |  Abstract »  |  PDF »

Activation of the sphingomyelin signaling pathway in intact EL4 cells and in a cell-free system by IL-1 beta.

S Mathias, A Younes, C. Kan, I Orlow, C Joseph, and R. Kolesnick (1993)
Science 259, 519-522
 |  Abstract »  |  PDF »

Signal transduction in Saccharomyces cerevisiae requires tyrosine and threonine phosphorylation of FUS3 and KSS1..

A Gartner, K Nasmyth, and G Ammerer (1992)
Genes & Dev. 6, 1280-1292
 |  Abstract »  |  PDF »

Tumor necrosis factor-alpha activates the sphingomyelin signal transduction pathway in a cell-free system.

K. Dressler, S Mathias, and R. Kolesnick (1992)
Science 255, 1715-1718
 |  Abstract »  |  PDF »

Tyrosyl phosphorylation and activation of MAP kinases by p56lck.

E Ettehadieh, J. Sanghera, S. Pelech, D Hess-Bienz, J Watts, N Shastri, and R Aebersold (1992)
Science 255, 853-855
 |  Abstract »  |  PDF »

Requirements for phosphorylation of MAP kinase during meiosis in Xenopus oocytes.

J Posada and J. Cooper (1992)
Science 255, 212-215
 |  Abstract »  |  PDF »

Stimulation of protein tyrosine phosphorylation by NMDA receptor activation.

H Bading and M. Greenberg (1991)
Science 253, 912-914
 |  Abstract »  |  PDF »

Regulators of Synthesis and Activity of the G1 Cyclins of Budding Yeast.

I. Herskowitz, J. Ogas, B.J. Andrews, and F. Chang (1991)
Cold Spring Harb Symp Quant Biol 56, 33-40
 |  Abstract »  |  PDF »

Functional Redundancy in the Yeast Cell Cycle: FUS3 and KSS1 Have Both Overlapping and Unique Functions.

E.A. Elion, J.A. Brill, and G.R. Fink (1991)
Cold Spring Harb Symp Quant Biol 56, 41-49
 |  Abstract »  |  PDF »

The Cyclin-dependent Kinase Family.

M. Meyerson, B. Faha, L.-K. Su, E. Harlow, and L.-H. Tsai (1991)
Cold Spring Harb Symp Quant Biol 56, 177-186
 |  Abstract »  |  PDF »

Fission yeast genes that confer resistance to staurosporine encode an AP-1-like transcription factor and a protein kinase related to the mammalian ERK1/MAP2 and budding yeast FUS3 and KSS1 kinases..

T Toda, M Shimanuki, and M Yanagida (1991)
Genes & Dev. 5, 60-73
 |  Abstract »  |  PDF »

Mechanisms Regulating Cell Number and Type in the Mammalian Central Nervous System.

R. McKay, N. Valtz, M. Cunningham, and T. Hayes (1990)
Cold Spring Harb Symp Quant Biol 55, 291-301
 |  Abstract »  |  PDF »

Neurotrophic Factors, Their Receptors, and the Signal Transduction Pathways They Activate.

G.D. Yancopoulos, P.C. Maisonpierre, N.Y. Ip, T.H. Aldrich, L. Belluscio, T.G. Boulton, M.H. Cobb, S.R Squinto, and M.E. Furth (1990)
Cold Spring Harb Symp Quant Biol 55, 371-379
 |  Abstract »  |  PDF »

Thyroid-stimulating Hormone and Cyclic AMP Activate p38 Mitogen-activated Protein Kinase Cascade. INVOLVEMENT OF PROTEIN KINASE A, Rac1, AND REACTIVE OXYGEN SPECIES.

M. Pomerance, H.-B. Abdullah, S. Kamerji, C. Correze, and J.-P. Blondeau (2000)
J. Biol. Chem. 275, 40539-40546
 |  Abstract »  |  Full Text »  |  PDF »

The Mechanism of Heat Shock Activation of ERK Mitogen-activated Protein Kinases in the Interleukin 3-dependent ProB Cell Line BaF3.

D. C. H. Ng and M. A. Bogoyevitch (2000)
J. Biol. Chem. 275, 40856-40866
 |  Abstract »  |  Full Text »  |  PDF »

CD45 Negatively Regulates Monocytic Cell Differentiation by Inhibiting Phorbol 12-Myristate 13-Acetate-dependent Activation and Tyrosine Phosphorylation of Protein Kinase Cdelta.

E. L. Deszo, D. K. Brake, K. A. Cengel, K. W. Kelley, and G. G. Freund (2001)
J. Biol. Chem. 276, 10212-10217
 |  Abstract »  |  Full Text »  |  PDF »

Ten ERK-related Proteins in Three Distinct Classes Associate with AP-1 Proteins and/or AP-1 DNA.

N. V. Kumar and L. R. Bernstein (2001)
J. Biol. Chem. 276, 32362-32372
 |  Abstract »  |  Full Text »  |  PDF »

Human ERK1 Induces Filamentous Growth and Cell Wall Remodeling Pathways in Saccharomyces cerevisiae.

J. M. Atienza, M. Suh, I. Xenarios, R. Landgraf, and J. Colicelli (2000)
J. Biol. Chem. 275, 20638-20646
 |  Abstract »  |  Full Text »  |  PDF »

c-Jun NH2-Terminal Kinase (JNK)1 and JNK2 Have Distinct Roles in CD8+ T Cell Activation.

D. Conze, T. Krahl, N. Kennedy, L. Weiss, J. Lumsden, P. Hess, R. A. Flavell, G. Le Gros, R. J. Davis, and M. Rincon (2002)
J. Exp. Med. 195, 811-823
 |  Abstract »  |  Full Text »  |  PDF »

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