duced dissociation to sequence peptide mixtures". Journal of Chromatography A (2003) 1020:11-26.
Witfke, Stefan et al., "Determination of peptides and proteins in human urine with capillary electrophoresis-mass spectrometry, a suitable tool for the establishment of new diagnostic markers". Journal of Chromatography A (2003), 1013:173-181. Wright, G.L. et al., "Proteinchip surface enhanced laser desorption/ ionization (SELDI) mass spectrometry: a novel protein biochip technology for detection of prostate cancer biomarkers in complex protein mixtures". Prostate Cancer and Prostatic Diseases (1999) 2:264276.
Wu, Baolin, et al., "Comparison of statistical methods for classification of ovarian cancer using mass spectrometry data". Bioinfonnatics (2003) 19(13):1636-1643.
Wu, Shiaw-Lin, et al., "Targeted proteomics of low-level proteins in human plasma by LC/MSn: Using human growth hormone as a model system". Journal of Proteome Research (2002) 1:459-465.
Yanagisawa, Kiyoshi, et al., "Proteomic patterns of tumour subsets in non-small-cell lung cancer". The Lancet (Aug. 9, 2003), 362:433439.
Yasui, Yataka, et al., "A data-analytic strategy for protein biomarker discovery: profiling of high-dimensional proteomic data for cancer detection". Biostatistics (2003) 4(3):449-463. Zhang, Zhen, et al., "Three Biomarkers Identified from Serum Proteomic Analysis for the Detection of Early Stage Ovarian Cancer," Cancer Research (Aug. 15, 2004) 64:5882-5890. Zhu, Hongtu, et al. "Tree-based disease classification using protein data". Proteomics (2003) 3:1673-1677.
Zhu, Wei, et al. "Detection of cancer-specific markers amid massive mass spectral data". PNAS (Dec. 9, 2003) 100(25): 14666-14761.
* cited by examiner