Bio-medical Ontologies Maintenance and Change Management

More documents

Recommendations

Info

260 C.h. You, L.B. Holder, and D.J. Cook 3. Cheng, C.Y., Huang, C.Y., Sun, C.T.: Mining bridge and brick motifs from complex biological networks for functionally and statistically significant discovery. IEEE Transactions on Systems, Man, and Cybernetics, Part B 38(1), 17–24 (2008) 4. Chittimoori, R., Holder, L., Cook, D.: Applying the subdue substructure discovery system to the chemical toxicity domain. In: Proceedings of the Florida AI Research Symposium, pp. 90–94 (1999) 5. Cook, D., Holder, L.: Substructure discovery using minimum description length and background knowledge. Journal of Artificial Intelligence Research 1, 231– 255 (1994) 6. Cook, D., Manocha, N., Holder, L.: Using a graph-based data mining system to perform web search. International Journal of Pattern Recognition and Artificial Intelligence 17(5) (2003) 7. Dzerosk, S.: Multi-relational data mining: an introduction. SIGKDD Explorations Newsletter 5(1), 1–16 (2003) 8. Gonzalez, J., Holder, L., Cook, D.: Graph-based relational concept learning. In: Proceedings of the International Conference on Machine Learning, pp. 219–226 (2002) 9. Holder, L., Cook, D., Coble, J., Mukherjee, M.: Graph-based relational learning with application to security. Fundamenta Informaticae Special Issue on Mining Graphs, Trees and Sequences 6, 83–101 (2005) 10. Holder, L., Cook, D., Gonzalez, J., Jonyer, I.: Structural Pattern Recognition in Graphs. In: Pattern Recognition and String Matching, pp. 255–280. Springer, Heidelberg (2003) 11. Hu, H., Yan, X., Huang, Y., Han, J., Zhou, X.J.: Mining coherent dense subgraphs across massive biological networks for functional discovery. Bioinformatics 21(1), 213–221 (2005) 12. Huan, J., Wang, W., Bandyopadhyay, D., Snoeyink, J., Prins, J., Tropsha, A.: Mining protein family specific residue packing patterns from protein structure graphs. In: Eighth Annual International Conference on Research in Computational Molecular Biology (RECOMB), pp. 308–315 (2004) 13. Hwang, W., Cho, Y.R., Zhang, A., Ramanathan, M.: A novel functional module detection algorithm for protein-protein interaction networks. Algorithms for Molecular Biology 1 (2006) 14. Kanehisa, M., Goto, S., Kawashima, S., Okuno, U., Hattori, M.: KEGG resource for deciphering the genome. Nucleic Acids Research 32, 277–280 (2004) 15. Kitano, H.: Systems biology: A brief overview. Science 295, 1662–1664 (2002) 16. Klipp, E., Herwig, R., Kowald, A., Wierling, C., Lehrach, H.: Systems Biology in Practice: Concepts, Implementation and Application, 1st edn. WILEY-VCH, Weinheim (2005) 17. Koyuturk, M., Grama, A., Szpankowski, W.: An efficient algorithm for detecting frequent subgraphs in biological networks. In: Proceedings of the International Conference on Intelligent Systems for Molecular Biology, vol. 20, pp. 200–207 (2004) 18. Kukluk, J., You, C., Holder, L., Cook, D.: Learning node replacement graph grammars in metabolic pathways. In: Proceedings of International Conference on Bioinformatics and Computational Biology, BIOCOMP 2007 (2007) 19. Kuramochi, M., Karypis, G.: Frequent subgraph discovery. In: Proceedings of the IEEE Conference on Data Mining, pp. 313–320 (2001)
Substructure Analysis of Metabolic Pathways 261 20. Laub, M., Loomis, W.: A molecular network that produces spontaneous oscillations in excitable cells of dictyostelium. Mol. Biol. Cell 9(12), 3521–3532 (1998) 21. Lodhi, H., Muggleton, S.H.: Modelling metabolic pathways using stochastic logic programs-based ensemble methods. In: Danos, V., Schachter, V. (eds.) CMSB 2004. LNCS (LNBI), vol. 3082, pp. 119–133. Springer, Heidelberg (2005) 22. Muggleton, S.: Inductive logic programming. New Generation Computing 8, 295–318 (1991) 23. Muggleton, S.H., Lodhi, H., Amini, A., Sternberg, M.J.E.: Support Vector Inductive Logic Programming. In: Hoffmann, A., Motoda, H., Scheffer, T. (eds.) DS 2005. LNCS, vol. 3735, pp. 163–175. Springer, Heidelberg (2005) 24. Su, S., Cook, D., Holder, L.: Application of knowledge discovery to molecular biology: Identifying structural regularities in proteins. In: Proceedings of the Pacific Symposium on Biocomputing, vol. 4, pp. 190–201 (1999) 25. Tamaddoni-Nezhad, A., Kakas, A., Muggleton, S., Pazos, F.: Modelling inhibition in metabolic pathways through abduction and induction. In: Camacho, R., King, R., Srinivasan, A. (eds.) ILP 2004. LNCS, vol. 3194, pp. 305–322. Springer, Heidelberg (2004) 26. KEGG, http://www.genome.jp 27. Wolf, J., Sohn, H., Heinrich, R., Kuriyama, H.: Mathematical analysis of a mechanism for autonomous metabolic oscillations in continuous culture of saccharomyces cerevisiae. FEBS Lett. 499(3), 230–234 (2001) 28. Yan, X., Han, J.: Gspan: Graph-based substructure pattern mining. In: Proceedings of the IEEE Conference on Data Mining, pp. 721–724 (2002) 29. You, C., Holder, L., Cook, D.: Graph-based data mining in dynamic networks: Empirical comparison of compression-based and frequency-based subgraph mining. In: IEEE International Conference on Data Mining (ICDM) Workshop on Analysis of Dynamic Networks (2008) 30. You, C., Holder, L., Cook, D.: Graph-based temporal mining of metabolic pathways with microarray data. In: ACM SIGKDD Workshop on Data Mining in Bioinformatics, BIOKDD (2008)
Page 1 and 2:
Amandeep S. Sidhu and Tharam S. Dil
Page 3 and 4:
Amandeep S. Sidhu and Tharam S. Dil
Page 5 and 6:
Preface The molecular biology commu
Page 7 and 8:
Preface VII biomedical systems, and
Page 9 and 10:
X Contents Mining Clinical, Immunol
Page 11 and 12:
2 A.S. Sidhu, M. Bellgard, and T.S.
Page 13 and 14:
Page 15 and 16:
Page 17 and 18:
Page 19 and 20:
Towards Bioinformatics Resourceomes
Page 21 and 22:
Page 23 and 24:
Page 25 and 26:
2 The New Waves Towards Bioinformat
Page 27 and 28:
2.4 Semantic Web Towards Bioinforma
Page 29 and 30:
Page 31 and 32:
Page 33 and 34:
Page 35 and 36:
Page 37 and 38:
Page 39 and 40:
Page 41 and 42:
Page 43 and 44:
A Summary of Genomic Databases: Ove
Page 45 and 46:
Page 47 and 48:
Page 49 and 50:
Page 51 and 52:
Page 53 and 54:
Page 55 and 56:
Page 57 and 58:
Page 59 and 60:
Appendix A Summary of Genomic Datab
Page 61 and 62:
Protein Data Integration Problem Am
Page 63 and 64:
Protein Data Integration Problem 57
Page 65 and 66:
Page 67 and 68:
Page 69 and 70:
Fig. 3. Class Hierarchy of Protein
Page 71 and 72:
Page 73 and 74:
Page 75 and 76:
Page 77 and 78:
72 L. Stanescu, D. Dan Burdescu, an
Page 79 and 80:
Page 81 and 82:
Page 83 and 84:
Page 85 and 86:
Page 87 and 88:
Page 89 and 90:
Page 91 and 92:
Page 93 and 94:
Page 95 and 96:
Page 97 and 98:
Page 99 and 100:
Page 101 and 102:
Page 103 and 104:
Page 105 and 106:
100 L. Stanescu, D. Dan Burdescu, a
Page 107 and 108:
Page 109 and 110:
Page 111 and 112:
Page 113 and 114:
Page 115 and 116:
Page 117 and 118:
Page 119 and 120:
Page 121 and 122:
Page 123 and 124:
Page 125 and 126:
Page 127 and 128:
Page 129 and 130:
Page 131 and 132:
Page 133 and 134:
Page 135 and 136:
Page 137 and 138:
Page 139 and 140:
Page 141 and 142:
Page 143 and 144:
Page 145 and 146:
Page 147 and 148:
Bio-medical Ontologies Maintenance
Page 149 and 150:
Page 151 and 152:
Page 153 and 154:
Page 155 and 156:
Page 157 and 158:
Page 159 and 160:
TextToOnto (Maedche and Volz 2001)
Page 161 and 162:
Page 163 and 164:
Page 165 and 166:
Page 167 and 168:
Page 169 and 170:
Page 171 and 172:
Page 173 and 174:
Extraction of Constraints from Biol
Page 175 and 176:
Page 177 and 178:
Page 179 and 180:
Page 181 and 182:
Page 183 and 184:
Page 185 and 186:
Page 187 and 188:
Page 189 and 190:
Page 191 and 192:
Classifying Patterns in Bioinformat
Page 193 and 194:
Page 195 and 196:
Page 197 and 198:
Page 199 and 200:
Page 201 and 202:
Page 203 and 204:
Page 205 and 206:
Page 207 and 208:
Page 209 and 210:
Page 211 and 212:
Page 213 and 214: Classifying Patterns in Bioinformat
Page 215 and 216: Mining Clinical, Immunological, and
Page 241 and 242: Substructure Analysis of Metabolic
Page 253 and 254: entry compound relation subtype com
Page 257 and 258: Running Time 4500 4000 3500 3000 25
Page 263: 6 Conclusion Substructure Analysis
Page 267 and 268: 266 J.Y. Chen, S. Taduri, and F. Ll
Page 281 and 282: Completing the Total Wellbeing Puzz
Page 295 and 296: 296 M. Fernandez, M. Villasana, and
Page 315 and 316:
Genetic Algorithm in Ab Initio Prot
Page 317 and 318:
Page 319 and 320:
Page 321 and 322:
Page 323 and 324:
Page 325 and 326:
Page 327 and 328:
Page 329 and 330:
Page 331 and 332:
Page 333 and 334:
Page 335 and 336:
Page 337 and 338:
Page 339 and 340:
Page 341:
Author Index Apiletti, Daniele 169
show all

Bio-medical Ontologies Maintenance and Change Management

Create successful ePaper yourself

Delete template?

Save as template?