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PILRalpha, a novel immunoreceptor tyrosine-based inhibitory motif-bearing protein, recruits SHP-1 upon tyrosine phosphorylation and is paired with the truncated counterpart PILRbetaA novel protein distinguishes between quiescent and activated forms of the type I transforming growth factor beta receptorRole of tyrosine phosphorylation of HS1 in B cell antigen receptor-mediated apoptosisHigh-resolution crystal structure of the catalytic domain of human dual-specificity phosphatase 26Evidence that phospholipase C-gamma2 interacts with SLP-76, Syk, Lyn, LAT and the Fc receptor gamma-chain after stimulation of the collagen receptor glycoprotein VI in human plateletsIsolation and characterization of cortactin isoforms and a novel cortactin-binding protein, CBP90Differential regulation of Shc adaptor proteins in skeletal muscle, spinal cord and forebrain of aged rats with sensorimotor impairmentDifferential regulation of cell migration, actin stress fiber organization, and cell transformation by functional domains of Crk-associated substrateSpatio-temporally regulated expression of receptor tyrosine kinases, mRor1, mRor2, during mouse development: implications in development and function of the nervous systemAn ascidian gene encoding an SH2-domain protein is expressed in the notochord cells of the embryo.Immunological approach to hepatocellular carcinoma.Transglutaminase 2 mediates polymer formation of I-kappaBalpha through C-terminal glutamine cluster.An alternate mechanism of glucocorticoid anti-proliferative effect: promotion of a Th2 cytokine-secreting profile.In brain, Axl recruits Grb2 and the p85 regulatory subunit of PI3 kinase; in vitro mutagenesis defines the requisite binding sites for downstream Akt activation.Recent advances in the molecular and cellular biology of chronic myeloid leukaemia: lessons to be learned from the laboratory.Genetic analysis of integrin activation in T lymphocytes.Platelet endothelial cell adhesion molecule-1 and mechanotransduction in vascular endothelial cells.NK cell regulation by SLAM family receptors and SAP-related adapters.Amino-terminal sequence determinants for substrate recognition by platelet-derived growth factor receptor tyrosine kinase.The recombinant alpha isoform of protein kinase CK1 from Xenopus laevis can phosphorylate tyrosine in synthetic substrates.Transcriptional co-activator activity of SYT is negatively regulated by BRM and Brg1.Src-dependent phosphorylation of the EGF receptor Tyr-845 mediates Stat-p21waf1 pathway in A431 cells.Involvement of phosphatidylinositol 3'-kinase in stem-cell-factor-induced phospholipase D activation and arachidonic acid release.The role of CTLA-4 in the regulation and initiation of T-cell responses.Cytokine amplification and inhibition of immune and inflammatory responses.Conformational changes accompany phosphorylation of the epidermal growth factor receptor C-terminal domainThe insulin-like growth factor-I receptor inhibitor NVP-AEW541 provokes cell cycle arrest and apoptosis in multiple myeloma cells.The role of water in computational and experimental derivation of binding thermodynamics in SH2 domains.Oncogenic src, raf, and ras stimulate a hypertrophic pattern of gene expression and increase cell size in neonatal rat ventricular myocytes.The modular architecture of leukocyte cell-surface receptors.Immunity proteins and their specificity for endonuclease colicins: telling right from wrong in protein-protein recognition.p55-hGRF, a short natural form of the Ras-GDP exchange factor high yield production and characterization.Glutamate receptor anchoring proteins and the molecular organization of excitatory synapses.The common phospholipid-binding activity of the N-terminal domains of PEX1 and VCP/p97.
P2860
Q22011205-B28DB7E5-B81A-47EF-9A80-6E05F5CE8DFCQ24324780-EC005115-50BD-4944-A18C-91191F5DFB51Q24669916-8B1A8EFE-4758-41FF-B2F6-528BAC9054E4Q27684677-79286684-A184-405A-9424-895FFBC66F19Q28143368-80571D5B-D4F3-4DDE-826E-91CFB861C38DQ28288646-7547351A-C92A-492E-9620-F7327A9A3E15Q28564997-C0B1C2C6-CFB2-42E8-A203-36936AFF92C0Q28567205-4CE44028-EE28-4867-9C91-2A1D929D397EQ28586613-8D03B50A-E18A-4633-A583-4DB0D22A3205Q32027529-50CC2386-5AB5-4D43-B4FB-F30695B989D2Q32147095-CE02AEB6-399E-4C85-988D-C712465440EEQ33258202-D423B203-95EA-45CE-AD9E-9836A2CF3123Q33748802-98CB8CD4-5627-4651-A41C-183F6F5532B4Q33999355-FE8E8AAF-069E-45DA-9230-9583DA9FFB4FQ34235845-24387F1B-2755-4BF2-999C-1AE0F73D41D7Q34862300-6B3360EA-CF26-40AB-ABE1-78F071FBD593Q36440501-AE3E12D9-69C7-4FBE-8DE4-5B923CC5069EQ36652149-B2E53C71-946A-4B00-A297-F4E9E1239E1AQ36823832-753B08E3-8E74-42A9-ACBE-12421F9D3F5FQ36845259-6A05951B-A209-4929-AA29-DF955F840298Q40555318-0E4F5DEE-88A1-4428-BD7D-87F57DB3E693Q40594374-FAA0741B-A9A6-4137-B035-08466E0CD088Q41093754-5B26B86A-2DAE-44B0-87C4-7903599983DFQ41332079-5B007568-46D0-4210-A54A-48F19FDCD90DQ41681551-7EFDAF7B-1F42-4C42-B839-98398D5E4FC5Q41893499-B75B3399-54FC-443C-BF74-DE1F51A59EB9Q44541080-84F6C79F-2CB0-4414-990A-7E6A73139C25Q46955524-C2AAE5A4-FCC7-48A5-85B5-65D2938B55B7Q47285549-C07CA5BC-3A78-40B9-8AC1-EBCBB7D1635BQ47700184-0A725C5F-F6D1-4183-99DF-2F5B71BF2340Q47986887-9AE85828-5E54-462E-9B88-6CFCB2590545Q48123411-CB21D6D3-EBBA-4AFD-85C5-1D3264AC4C4DQ52571669-92C57B88-3490-44B7-9D53-2DD54E6EE85FQ53595599-8EEDCC58-D344-452C-A36A-3C6CA75F4C5F
P2860
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в лютому 1995
@uk
name
Getting down to specifics
@en
Getting down to specifics
@nl
type
label
Getting down to specifics
@en
Getting down to specifics
@nl
prefLabel
Getting down to specifics
@en
Getting down to specifics
@nl
P356
P1433
P1476
Protein-tyrosine kinases. Getting down to specifics
@en
P2093
P2888
P304
P356
10.1038/373477A0
P407
P577
1995-02-01T00:00:00Z
P6179
1014101112