New Statistical Algorithms for the Analysis of Mass - FU Berlin, FB MI ...

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180 REFERENCES Coombes, K. R., Tsavachidis, S., Morris, J. S., Baggerly, K. A., Hung, M.-C. and Kuerer, H. M. (2005). Improved peak detection and quantification of mass spectrometry data acquired from surface-enhanced laser desorption and ionization by denoising spectra with the undecimated discrete wavelet transform., Proteomics 5(16): 4107–4117. Corrigan, O. P. and Williams-Jones, B. (2006). Pharmacogenetics: the bioethical problem of dna investment banking., Stud Hist Philos Biol Biomed Sci 37(3): 550–565. Covey, T. R., Lee, E. D. and Henion, J. D. (1986). High-speed liquid chromatography/tandem mass spectrometry for the determination of drugs in biological samples., Anal Chem 58(12): 2453–2460. Cravatt, B. F., Simon, G. M. and Yates, J. R. (2007). The biological impact of mass-spectrometry-based proteomics., Nature 450(7172): 991–1000. Daemen, J. and Rijmen, V. (1999). Aes proposal: Rijndael, Technical Specification. Daemen, J. and Rijmen, V. (2002). The design of Rijndael: AES—the advanced encryption standard, Springer-Verlag. Danial, N. N., Gramm, C. F., Scorrano, L., Zhang, C.-Y., Krauss, S., Ranger, A. M., Datta, S. R., Greenberg, M. E., Licklider, L. J., Lowell, B. B., Gygi, S. P. and Korsmeyer, S. J. (2003). Bad and glucokinase reside in a mitochondrial complex that integrates glycolysis and apoptosis., Nature 424(6951): 952–956. de Berg, M., van Krevald, M., Overmars, M. and Schwarzkopf, O. (2000). Computational Geometry, second revised edition edn, Springer-Verlag. Deonia, S. C., Ruttb, B. K., Parrentb, A. G. and Peters, T. M. (2007). Segmentation of thalamic nuclei using a modified k-means clustering algorithm and high-resolution quantitative magnetic resonance imaging at 1.5 t, NeuroImage 34(1): 117–126. Devlin, S., Gnanadesikan, R. and Kettenring, J. (1975). Robust estimation and outlier detection with correlation coefficients, Biometrika 61: 531–545. Diamandis, E. (2004). How are we going to discover new cancer biomarkers? a proteomic approach for bladder cancer, Clin Chem 50(5): 793–795. Dong, M.-Q., Venable, J. D., Au, N., Xu, T., Park, S. K., Cociorva, D., Johnson, J. R., Dillin, A. and Yates, J. R. (2007). Quantitative mass spectrometry identifies insulin signaling targets in c. elegans., Science 317(5838): 660–663. Donoho, D. (1995). Denoising via soft thresholding, IEEE Trans. Information Theory 41: 613–627. Donoho, D. L. and Johnstone, I. M. (1995). Adapting to unknown smoothness via wavelet shrinkage, Journal of the American Statistical Association 90(432): 1200–1224. Douglis, F. (1990). Transparent Process Migration in the Sprite Operating System, PhD thesis, U.C. Berkeley. Report UCB/CSD 90/598.
REFERENCES 181 Downard, K. M. and Morrissey, B. (2007). Fingerprinting a killer: surveillance of the influenza virus by mass spectrometry., Analyst 132(7): 611– 614. Dowsey, A. W., Dunn, M. J. and Yang, G.-Z. (2004). Proteomegrid: towards a high-throughput proteomics pipeline through opportunistic cluster image computing for two-dimensional gel electrophoresis., Proteomics 4(12): 3800–3812. Eager, D. L., Lazowska, E. D. and Zahorjan, J. (1985). A comparison of receiver-initiated and sender-initiated adaptive load sharing (extended abstract), SIGMETRICS ’85: Proceedings of the 1985 ACM SIGMETRICS conference on Measurement and modeling of computer systems, ACM, New York, NY, USA, pp. 1–3. Ebert, M. P. A., Korc, M., Malfertheiner, P. and Rcken, C. (2006). Advances, challenges, and limitations in serum-proteome-based cancer diagnosis., J Proteome Res 5(1): 19–25. Efron, B. (1979). Bootstrap methods: Another look at the jackknife, The Annals of Statistics 7: 1–26. Efron, B. and Tibshirani, R. J. (1994). An Introduction to the Bootstrap, Chapman & Hall/CRC. Elfwing, R., Paulsson, U. and Lundberg, L. (2002). Performance of soap in web service environment compared to corba, APSEC ’02: Proceedings of the Ninth Asia-Pacific Software Engineering Conference, IEEE Computer Society, Washington, DC, USA, p. 84. Emmerich, W. and Kaveh, N. (2002). Component technologies: Java beans, com, corba, rmi, ejb and the corba component model, ICSE ’02: Proceedings of the 24th International Conference on Software Engineering, ACM Press, New York, NY, USA, pp. 691–692. Engum, A., Bjro, T., Mykletun, A. and Dahl, A. (2005). Thyroid autoimmunity, depression and anxiety; are there any connections? an epidemiological study of a large population., Journal of Psychosomatic Research 59: 263–268. EU (2003). Eu workshop in fp5: Biobanks for health. optimising the use of european biobanks and health registries for research relevant to public health and for combating disease. report and recommendations., Oslo. Fan, X. and Wang, L. (1995). How comparable are the jackknife and bootstrap results: An investigation for a case of canonical correlation analysis., Proceedings of the annual meeting of the American Educational Research Association. Fasano, G. and Franceschini, A. (1987). A multidimensional version of the kolmogorov-smirnov test, Monthly Notices of the Royal Astronomical Society 225: 155–170. Fenn, J., Mann, M., Meng, C., Wong, S. and Whitehouse, C. (1989). Electrospray ionization for mass spectrometry of large biomolecules, Science 246: 64–71.
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New Statistical Algorithms for the
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Contents Acknowledgments . . . . .
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New Statistical Algorithms for the
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Extended Abstract English Version M
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German Version Das Gebiet der Prote
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Chapter 1 Introduction and Survey 1
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1.2. GOALS, OBJECTIVES AND TASKS 7
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1.2. GOALS, OBJECTIVES AND TASKS 9
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Chapter 2 Preliminaries 2.1 Topic O
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2.1. TOPIC OVERVIEW 13 Figure 2.1.1
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2.1. TOPIC OVERVIEW 15 completeness
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2.2. AN EXAMPLE 17 (a) Opera A (b)
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2.2. AN EXAMPLE 19 Figure 2.2.6: Tw
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2.2. AN EXAMPLE 21 successes. We ca
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Chapter 3 Mathematical Modeling and
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3.2. INTRODUCTION TO MALDI TOF MS 2
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3.3. PREPROCESSING 31 mix (external
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3.3. PREPROCESSING 33 Figure 3.3.5:
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3.3. PREPROCESSING 35 Figure 3.3.7:
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3.4. HIGHLY SENSITIVE PEAK DETECTIO
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3.5. PEAK DETECTION IN 2D MAPS 43
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3.6. PEAK REGISTRATION (ALIGNMENT)
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3.7. IDENTIFYING POTENTIAL FEATURES
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3.8. EXTRACTING FINGERPRINTS 57 Fig
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3.8. EXTRACTING FINGERPRINTS 59 FID
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3.8. EXTRACTING FINGERPRINTS 61 Dim
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3.9. COMPLEXITY ANALYSIS 63 3.9 Com
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Chapter 4 (Bio-)Medical Application
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4.1. DATA USED 67 4.1.2 Serum Data
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4.2. STATISTICAL REMARKS 69 1. Vali
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4.2. STATISTICAL REMARKS 71 Molar v
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4.2. STATISTICAL REMARKS 73 � Fir
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4.2. STATISTICAL REMARKS 75 Let ˆ
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4.2. STATISTICAL REMARKS 77 the boo
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4.3. STUDY RESULTS 79 Figure 4.3.3:
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4.3. STUDY RESULTS 81 Figure 4.3.4:
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4.3. STUDY RESULTS 83 � kNN (gen.
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4.3. STUDY RESULTS 85 d(x, θi) =
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4.3. STUDY RESULTS 87 pairs of obje
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4.3. STUDY RESULTS 89 � “Peptid
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4.4. IDENTIFICATION OF PROTEOMIC FI
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4.6. BIOLOGICAL APPLICATIONS 101 4.
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Chapter 5 Computer Science Grid Str
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5.1. INTRODUCTION 105 � A node is
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5.1. INTRODUCTION 107 of and config
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5.1. INTRODUCTION 109 particular pr
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5.2. THE QUASI AD-HOC (QAD) GRID 11
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5.2. THE QUASI AD-HOC (QAD) GRID 11
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5.3. QAD GRID PLATFORM SERVER 115 F
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5.3. QAD GRID PLATFORM SERVER 117 j
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5.3. QAD GRID PLATFORM SERVER 119 (
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5.3. QAD GRID PLATFORM SERVER 121 p
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5.3. QAD GRID PLATFORM SERVER 123 D
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5.3. QAD GRID PLATFORM SERVER 125 F
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5.3. QAD GRID PLATFORM SERVER 127 t
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Page 163 and 164: 6.2. CASE STUDIES 157 MASCOT and SE
Page 165 and 166: 6.2. CASE STUDIES 159 The peak pick
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Page 169 and 170: 6.2. CASE STUDIES 163 Approach Base
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Page 173 and 174: Chapter 7 Related Work In this chap
Page 175 and 176: Chapter 8 Conclusion and Future Dir
Page 177 and 178: 8.3. FROM BIOMARKERS TO BIOPRINTS 1
Page 179 and 180: Appendix A Implementation Details T
Page 181 and 182: Appendix B Curriculum Vitae Name Ti
Page 183 and 184: References Aebersold, R. and Mann,
Page 185: REFERENCES 179 Breiman, L. (2001).
Page 189 and 190: REFERENCES 183 Gillette, M. A., Man
Page 191 and 192: REFERENCES 185 Huyghe, E., Muller,
Page 193 and 194: REFERENCES 187 Kuijpens, J. L. P.,
Page 195 and 196: REFERENCES 189 McLachlan, S. M. and
Page 197 and 198: REFERENCES 191 Platt, J. C. (1999).
Page 199 and 200: REFERENCES 193 Stone, M. (1974). Cr
Page 201 and 202: REFERENCES 195 Washburn, M. P., Wol
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