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Nanospray mass spectrometry

Viberg, P., Nilsson, S., and Skog, K. (2004). Nanospray mass spectrometry with indirect conductive graphite coating. Anal. Chem. 76, 4241 —4244. [Pg.504]

Vuorensola, K., Siren, H., Kostiainen, R., and Kotiaho, T. (2002). Analysis of catecholamines by capillary electrophoresis and capillary electrophoresis-nanospray mass spectrometry. Use of aqueous and non-aqueous solutions compared with physical parameters. /. Chromatogr. A 979, 179—189. [Pg.512]

Griffiths, W.J. (2000). Nanospray mass spectrometry in protein and peptide chemistry. EXS, 88, 69-79. [Pg.175]

Gatlin, C. L. Kleemann, G. R. Hays, L. G. Link, A. J. Yates, J. R. 1998. Protein identification at the low femtomole level from silver-stained gels using a fritless electrospray interface for liquid chromatography-microspray and nanospray mass spectrometry. Anal. Biochem., 263, 93-101. [Pg.214]

Shen, R. F. (2003). Global protein identification and quantification technology using two-dimensional liquid chromatography nanospray mass spectrometry. Anal. Chem. 75, 6658-6665. [Pg.255]

Gatlin, C.L. Kleeman, G.R. Hays, L.G. Link, A.J. Yates, J.R. Protein Identification at the Low Femtomole Level from Silver-Stained Gels Using a New Fritless Electrospray Interface for Liquid Chromatography-Microspray and Nanospray Mass Spectrometry, Anal. Biochem. 263,93-101 (1998). [Pg.22]

Simple Chip-based Interfaces for On-line Nanospray Mass Spectrometry... [Pg.201]

D. J. Harvey, L. Royle, C. Radcliffe, P. M. Rudd, and R. A. Dwek, Stractural and quantitative analysis of N-linked glycans by matrix-assisted laser desorption ionization and negative ion nanospray mass spectrometry. Anal. Biochem., 376 (2008) 44-60. [Pg.206]

Standard-Free Estimation of Metabolite Levels Using Nanospray Mass Spectrometry Current Statutes and Future Directions... [Pg.567]

Figure 7,3 Coupling chip-based free-flow electrophoresis nanoESI-MS. (a) Layout of a microfluidic free-flow electrophoresis-MS chip (I = left), (b) The analysis principle. The separated analytes are directed towards the mass spectrometric outlet by alteration of the buffer s hydrodynamic flow. Arrows indicate relative flow rates and the rectangle ( ) labels the area visualized by fluorescence imaging [46]. Reproduced from Benz, C., Boomhoff, M., Appun, j., Schneider, C., Beider, D. (2015) Chip-based Tree-Flow Electrophoresis with Integrated Nanospray Mass-Spectrometry. Angew. Chem. Int. Ed. 54 2766-2770 with permission from lohn Wiley and Sons... Figure 7,3 Coupling chip-based free-flow electrophoresis nanoESI-MS. (a) Layout of a microfluidic free-flow electrophoresis-MS chip (I = left), (b) The analysis principle. The separated analytes are directed towards the mass spectrometric outlet by alteration of the buffer s hydrodynamic flow. Arrows indicate relative flow rates and the rectangle ( ) labels the area visualized by fluorescence imaging [46]. Reproduced from Benz, C., Boomhoff, M., Appun, j., Schneider, C., Beider, D. (2015) Chip-based Tree-Flow Electrophoresis with Integrated Nanospray Mass-Spectrometry. Angew. Chem. Int. Ed. 54 2766-2770 with permission from lohn Wiley and Sons...
Benz, C., Boomhoff, M., Appun, J., Schneider, C., Beider, D. (2015) Chip-based Freeflow Electrophoresis with Integrated Nanospray Mass-Spectrometry. Angew. Chem. Int. Ed. 54 2766-2770. [Pg.214]

Roussel, C. Dayon, L. Jensen, H. Girault, H. H. Online cysteine modification for protein analysis New probes for electrochemical tagging nanospray mass spectrometry. J. ElectroanaL Chem. 2004, 570, 187-199. [Pg.122]

See other pages where Nanospray mass spectrometry is mentioned: [Pg.304]    [Pg.788]   


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