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Site Information |
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PPDDRDAsDGEDEKP SwissProt Entrez-Gene |
Blast this site against: NCBI SwissProt PDB |
Site Group ID: 468749 |
In vivo Characterization | |
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Methods used to characterize site in vivo: | |
Disease tissue studied: | |
Relevant cell line - cell type - tissue: |
Upstream Regulation | |
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Downstream Regulation | |
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Effects of modification on SHIP-2: | |
Effects of modification on biological processes: |
References | |
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Mertins P, et al. (2016) Proteogenomics connects somatic mutations to signalling in breast cancer. Nature 534, 55-62
27251275 Curated Info |
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Carrier M, et al. (2016) Phosphoproteome and Transcriptome of RA-Responsive and RA-Resistant Breast Cancer Cell Lines. PLoS One 11, e0157290
27362937 Curated Info |
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Malec V, Coulson JM, Urbé S, Clague MJ (2015) Combined Analyses of the VHL and Hypoxia Signaling Axes in an Isogenic Pairing of Renal Clear Cell Carcinoma Cells. J Proteome Res 14, 5263-72
26506913 Curated Info |
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Stuart SA, et al. (2015) A Phosphoproteomic Comparison of B-RAFV600E and MKK1/2 Inhibitors in Melanoma Cells. Mol Cell Proteomics 14, 1599-615
25850435 Curated Info |
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Sharma K, et al. (2014) Ultradeep human phosphoproteome reveals a distinct regulatory nature of Tyr and Ser/Thr-based signaling. Cell Rep 8, 1583-94
25159151 Curated Info |
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Mertins P, et al. (2014) Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels. Mol Cell Proteomics 13, 1690-704
24719451 Curated Info |
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Bian Y, et al. (2014) An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. J Proteomics 96, 253-62
24275569 Curated Info |
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Schweppe DK, Rigas JR, Gerber SA (2013) Quantitative phosphoproteomic profiling of human non-small cell lung cancer tumors. J Proteomics 91, 286-96
23911959 Curated Info |
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Shiromizu T, et al. (2013) Identification of missing proteins in the neXtProt database and unregistered phosphopeptides in the PhosphoSitePlus database as part of the Chromosome-centric Human Proteome Project. J Proteome Res 12, 2414-21
23312004 Curated Info |
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Elong Edimo W, Vanderwinden JM, Erneux C (2013) SHIP2 signalling at the plasma membrane, in the nucleus and at focal contacts. Adv Biol Regul 53, 28-37
23040614 Curated Info |
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Zhou H, et al. (2013) Toward a comprehensive characterization of a human cancer cell phosphoproteome. J Proteome Res 12, 260-71
23186163 Curated Info |
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Osinalde N, et al. (2011) Interleukin-2 signaling pathway analysis by quantitative phosphoproteomics. J Proteomics 75, 177-91
21722762 Curated Info |
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Elong Edimo W, et al. (2011) Evidence of SHIP2 Ser132 phosphorylation, its nuclear localization and stability. Biochem J 439, 391-401
21770892 Curated Info |
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Ståhl S, et al. (2011) Phosphoproteomic profiling of NSCLC cells reveals that ephrin B3 regulates pro-survival signaling through Akt1-mediated phosphorylation of the EphA2 receptor. J Proteome Res 10, 2566-78
21413766 Curated Info |
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Kettenbach AN, et al. (2011) Quantitative phosphoproteomics identifies substrates and functional modules of aurora and polo-like kinase activities in mitotic cells. Sci Signal 4, rs5
21712546 Curated Info |
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Schreiber TB, et al. (2010) An integrated phosphoproteomics work flow reveals extensive network regulation in early lysophosphatidic acid signaling. Mol Cell Proteomics 9, 1047-62
20071362 Curated Info |
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Pan C, Olsen JV, Daub H, Mann M (2009) Global effects of kinase inhibitors on signaling networks revealed by quantitative phosphoproteomics. Mol Cell Proteomics 8, 2796-808
19651622 Curated Info |
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Ruse CI, et al. (2008) Motif-specific sampling of phosphoproteomes. J Proteome Res 7, 2140-50
18452278 Curated Info |
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Olsen JV, et al. (2006) Global, in vivo, and site-specific phosphorylation dynamics in signaling networks. Cell 127, 635-48
17081983 Curated Info |