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Items: 1 to 20 of 168

1.

Exploring proteomes and analyzing protein processing by mass spectrometric identification of sorted N-terminal peptides.

Gevaert K, Goethals M, Martens L, Van Damme J, Staes A, Thomas GR, Vandekerckhove J.

Nat Biotechnol. 2003 May;21(5):566-9. Epub 2003 Mar 31.

PMID:
12665801
2.

Improved recovery of proteome-informative, protein N-terminal peptides by combined fractional diagonal chromatography (COFRADIC).

Staes A, Van Damme P, Helsens K, Demol H, Vandekerckhove J, Gevaert K.

Proteomics. 2008 Apr;8(7):1362-70. doi: 10.1002/pmic.200700950.

PMID:
18318009
3.

Characterization of platelet proteins using peptide centric proteomics.

Simon O, Wortelkamp S, Sickmann A.

Methods Mol Biol. 2009;564:155-71. doi: 10.1007/978-1-60761-157-8_9.

PMID:
19544022
4.

Reversible labeling of cysteine-containing peptides allows their specific chromatographic isolation for non-gel proteome studies.

Gevaert K, Ghesquière B, Staes A, Martens L, Van Damme J, Thomas GR, Vandekerckhove J.

Proteomics. 2004 Apr;4(4):897-908.

PMID:
15048972
5.

The human platelet proteome mapped by peptide-centric proteomics: a functional protein profile.

Martens L, Van Damme P, Van Damme J, Staes A, Timmerman E, Ghesquière B, Thomas GR, Vandekerckhove J, Gevaert K.

Proteomics. 2005 Aug;5(12):3193-204.

PMID:
16038019
7.

Strong cation exchange-based fractionation of Lys-N-generated peptides facilitates the targeted analysis of post-translational modifications.

Taouatas N, Altelaar AF, Drugan MM, Helbig AO, Mohammed S, Heck AJ.

Mol Cell Proteomics. 2009 Jan;8(1):190-200. doi: 10.1074/mcp.M800285-MCP200. Epub 2008 Sep 29.

8.

Chromatographic isolation of methionine-containing peptides for gel-free proteome analysis: identification of more than 800 Escherichia coli proteins.

Gevaert K, Van Damme J, Goethals M, Thomas GR, Hoorelbeke B, Demol H, Martens L, Puype M, Staes A, Vandekerckhove J.

Mol Cell Proteomics. 2002 Nov;1(11):896-903.

9.
10.

Double acylation for identification of amino-terminal peptides of proteins isolated by polyacrylamide gel electrophoresis.

Sanchez A, Ramos Y, Solano Y, Gonzalez LJ, Besada V, Betancourt L, Gil J, Alvarez F, Rodriguez M, Perez L, Pujol M, Padron G.

Rapid Commun Mass Spectrom. 2007;21(14):2237-44.

PMID:
17569096
11.

Probability-based evaluation of peptide and protein identifications from tandem mass spectrometry and SEQUEST analysis: the human proteome.

Qian WJ, Liu T, Monroe ME, Strittmatter EF, Jacobs JM, Kangas LJ, Petritis K, Camp DG 2nd, Smith RD.

J Proteome Res. 2005 Jan-Feb;4(1):53-62.

PMID:
15707357
12.

Analysis of the Arabidopsis cytosolic ribosome proteome provides detailed insights into its components and their post-translational modification.

Carroll AJ, Heazlewood JL, Ito J, Millar AH.

Mol Cell Proteomics. 2008 Feb;7(2):347-69. Epub 2007 Oct 13.

13.

Differential dimethyl labeling of N-termini of peptides after guanidination for proteome analysis.

Ji C, Guo N, Li L.

J Proteome Res. 2005 Nov-Dec;4(6):2099-108.

PMID:
16335955
14.
15.

Dimethyl isotope-coded affinity selection for the analysis of free and blocked N-termini of proteins using LC-MS/MS.

Shen PT, Hsu JL, Chen SH.

Anal Chem. 2007 Dec 15;79(24):9520-30. Epub 2007 Nov 15.

PMID:
18001127
16.

Effect of 2MEGA labeling on membrane proteome analysis using LC-ESI QTOF MS.

Ji C, Lo A, Marcus S, Li L.

J Proteome Res. 2006 Oct;5(10):2567-76.

PMID:
17022628
17.

High-throughput analysis of rat liver plasma membrane proteome by a nonelectrophoretic in-gel tryptic digestion coupled with mass spectrometry identification.

Cao R, He Q, Zhou J, He Q, Liu Z, Wang X, Chen P, Xie J, Liang S.

J Proteome Res. 2008 Feb;7(2):535-45. doi: 10.1021/pr070411f. Epub 2008 Jan 1.

PMID:
18166008
18.

Enrichment of integral membrane proteins for proteomic analysis using liquid chromatography-tandem mass spectrometry.

Blonder J, Goshe MB, Moore RJ, Pasa-Tolic L, Masselon CD, Lipton MS, Smith RD.

J Proteome Res. 2002 Jul-Aug;1(4):351-60.

PMID:
12645891
19.

Membrane protein identifications by mass spectrometry using electrocapture-based separation as part of a two-dimensional fractionation system.

Astorga-Wells J, Tryggvason S, Vollmer S, Alvelius G, Palmberg C, Jörnvall H.

Anal Biochem. 2008 Oct 1;381(1):33-42. doi: 10.1016/j.ab.2008.06.031. Epub 2008 Jun 27.

PMID:
18638440

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