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Understanding cullin-RING E3 biology through proteomics-based substrate identification.
Mol Cell Proteomics. 2012 Dec;11(12):1541-50. doi: 10.1074/mcp.R112.021154. Epub 2012 Sep 7.
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Proteomic analyses reveal divergent ubiquitylation site patterns in murine tissues.
Mol Cell Proteomics. 2012 Dec;11(12):1578-85. doi: 10.1074/mcp.M112.017905. Epub 2012 Jul 11.
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Characterizing ubiquitination sites by peptide-based immunoaffinity enrichment.
Mol Cell Proteomics. 2012 Dec;11(12):1529-40. doi: 10.1074/mcp.R112.019117. Epub 2012 Jun 23.
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Methods for quantification of in vivo changes in protein ubiquitination following proteasome and deubiquitinase inhibition.
Mol Cell Proteomics. 2012 May;11(5):148-59. doi: 10.1074/mcp.M111.016857. Epub 2012 Apr 14.
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High-pH reversed-phase chromatography with fraction concatenation for 2D proteomic analysis.
Expert Rev Proteomics. 2012 Apr;9(2):129-34. doi: 10.1586/epr.12.15.
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Activity-based chemical proteomics accelerates inhibitor development for deubiquitylating enzymes.
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Global identification of modular cullin-RING ligase substrates.
Cell. 2011 Oct 14;147(2):459-74. doi: 10.1016/j.cell.2011.09.019. Epub 2011 Sep 29.
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Systematic and quantitative assessment of the ubiquitin-modified proteome.
Mol Cell. 2011 Oct 21;44(2):325-40. doi: 10.1016/j.molcel.2011.08.025. Epub 2011 Sep 8.
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A proteome-wide, quantitative survey of in vivo ubiquitylation sites reveals widespread regulatory roles.
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Reversed-phase chromatography with multiple fraction concatenation strategy for proteome profiling of human MCF10A cells.
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