McCormack et al., Direct Analysis and identification of proteins in mixture . . . , (1997), Anal. Chem., vol. 69, pp. 767-776.* |
Pasa-Tolic et al., High Throughput Proteome-wide . . . , (1999), JACS, vol. 121, pp. 7949-7950.* |
Jensen et al., Probing Proteome using capillary isoelectric focusing. . . , (1999), Anal. Chem., vol. 71, pp. 2076-2084.* |
Hellerstein and Neese, Mass isotopomer distribution analysis at eight years. . . , (1999), Am. J. Physiol. vol. 276, pp. E1146-E1170.* |
Oda et al., Accurate quantitation of protein expression and site-specific phosphorylation, (1999), PNAS, vol. 96, pp. 6591-6596.* |
Langen, H., et al., ABRF '99 Bioinformatics and Biomolecular Technologies: Linking Genomes, Proteomes and Biochemistry, An International Symposium Spronsored by The Association of Biomolecular Resource Facilities, “Combination of Mass Spectrometry and 2D Electrophoresis-Powerful Tools for Biological Experiments” (Abstract S32), Mar. 19-22, 1999. |
Arnott, D., et al., “Rapid identification of comigrating gel-isolated proteins by ion trap-mass spectrometry”, Electrophoresis 1998, 19, pp. 968-980. |
Zhang, W., and Chait, B.T., “Protein Identification by Database Searching: A Bayesian Algorithm”, 43rd ASMS Conference on Mass Spectrometry and Allied Topics, 1995, p. 643. |
Wu, C., et al., “Cell Cycle- and Cln2p-Cdc28p-dependent Phosphorylation of the Yeast Ste20p Protein Kinase”, The Journal of Biological Chemistry, vol. 273, No. 43, Oct. 23, 1998, pp. 28107-28115. |
Fenyö, D., et al., “Protein identification using mass spectrometric information”, Electrophoresis 1998, 19, pp. 998-1005. |
Oehlen, L.J.W.M., et al., “Potential Regulation of Ste20 Function by the Cln1-Cdc28 and Cln2-CDc28 Cyclin-dependent Protein Kinases”, The Journal of Biological Chemistry, vol. 273, No. 39, Sep. 25, 1998, pp. 25089-25097. |
James, P., “Protein Identification in the post-genome era: the rapid rise of proteomics”, Quarterly Review of Biophysics 30, 4 (1997), pp. 279-331. |
Anderson, N.G., et al. “Twenty years of two-dimensional electrophoresis; Past, present and future”, Electrophoresis, 1996, 17, pp. 443-453. |
Anderson, N.L., et al. “Simultaneous Measurement of Hundresds of Liver Proteins: Application in Assessment of Liver Function”, Toxicologic Pathology, vol. 24, No. 1, pp. 72-76 (1996). |
Cross, F. R., “Starting the cell cycle: what's the point?”, Current Opinion Cell Biol., pp. 790-798 (1995). |
Oehlen, L.J.W.M., et al., “G1 cyclins CLN1 and CLN2 repress the mating factor response pathway at Start in the yeast cell cycle”, Genes & Development, 8: 1058-1070, 1994, pp. 1058-1086. |
Gosser, Y.Q., et al., “The solution structure of Abl SH3, and its relationship to SH2 in the SH(32) construct”, Structure, pp. 1075-1086 (1995). |
DeLeenheer, A., et al., “Applications of isotope dilution-mass spectrometry in clinical chemistry, pharmacokinetics, and toxicology”, Mass Spectrometry Reviews, 1992, 11, pp. 249-307. |
Chait, B.T., et al., “Weighing Naked Proteins: Practical, High Accuracy Mass Measurement of Peptides and Proteins”, Science, Sep. 25, 1992, vol. 257, pp. 1885-1894. |
Anderson, N.L., et al., “Covalent Protein Modifications and Gene Expression Changes in Rodent Liver following Administration of Methapyrilene: A Study Using Two-Dimensional Electrophoresis”, Fundamental and Applied Toxicology, 18, pp. 570-580 (1992). |
Anderson, N.L., et al., “Global Approaches to Quantitative Analysis of Gene-Expression Pattern Observed by Use of Two-Dimensional Gel Electrophoresis”, Clinical Chemistry, vol. 30, No. 12, 1984, pp. 2031-2036. |
Grostic, M.F., et al., “Mass-Spectral Studies Employing Stable Isotopes in Chemistry and Biochemistry”, appearing in Mass Spectroscopy: Techniques and Applications edited by Milne, G.W.A., Wiley-Interscience, 1971, pp. 217-287. |