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BIBLIOGRAPHY Velicer, F.-J. Vorholter, K. J. Weissman, R. D. Welch, S. C. Wenzel, D. E. Whitworth, S. Wilhelm, C. Wittmann, H. Blocker, A. Puhler, & R. Muller (2007). ‘Complete genome sequence of the myxobacterium Sorangium cellulosum.’ Nat Biotechnol 25:1281–9. R. K. Shultzaberger, Z. Chen, K. A. Lewis, & T. D. Schneider (2007). ‘Anatomy of Escherichia coli sigma70 promoters.’ Nucleic Acids Res 35:771–88. M. D. Smith, B. J. Angus, V. Wuthiekanun, & N. J. White (1997). ‘Arabinose assimilation defines a nonvirulent biotype of Burkholderiapseudomallei.’ Infect Immun 65:4319–21. H. Tettelin, V. Masignani, M. J. Cieslewicz, C. Donati, D. Medini, N. L. Ward, S. V. Angiuoli, J. Crabtree, A. L. Jones, A. S. Durkin, R. T. Deboy, T. M. Davidsen, M. Mora, M. Scarselli, I. Margarit y Ros, J. D. Peterson, C. R. Hauser, J. P. Sundaram, W. C. Nelson, R. Madupu, L. M. Brinkac, R. J. Dodson, M. J. Rosovitz, S. A. Sullivan, S. C. Daugherty, D. H. Haft, J. Selengut, M. L. Gwinn, L. Zhou, N. Zafar, H. Khouri, D. Radune, G. Dimitrov, K. Watkins, K. J. B. O’Connor, S. Smith, T. R. Utterback, O. White, C. E. Rubens, G. Grandi, L. C. Madoff, D. L. Kasper, J. L. Telford, M. R. Wessels, R. Rappuoli, & C. M. Fraser (2005). ‘Genome analysis of multiple pathogenic isolates of Streptococcus agalactiae: implications for the microbial “pan–genome“.’ Proc Natl Acad Sci U S A 102:13950–5. J. D. Thompson, D. G. Higgins, & T. J. Gibson (1994). ‘Clustal w: improving the sensitivity of progressive multiple sequencealignment through sequence weighting, position– specific gap penalties andweight matrix choice.’ Nucleic Acids Res 22:4673–80. H. Toh, B. L. Weiss, S. A. H. Perkin, A. Yamashita, K. Oshima, M. Hattori, & S. Aksoy (2006). ‘Massive genome erosion and functional adaptations provide insights into the symbiotic lifestyle of Sodalis glossinidius in the tsetse host.’ Genome Res 16:149–56. M. L. Tress, P. L. Martelli, A. Frankish, G. A. Reeves, J. J. Wesselink, C. Yeats, P. I. Olason, M. Albrecht, H. Hegyi, A. Giorgetti, D. Raimondo, J. Lagarde, R. A. Laskowski, G. Lopez, M. I. Sadowski, J. D. Watson, P. Fariselli, I. Rossi, A. Nagy, W. Kai, Z. Storling, M. Orsini, Y. Assenov, H. Blankenburg, C. Huthmacher, F. Ramirez, A. Schlicker, F. Denoeud, P. Jones, S. Kerrien, S. Orchard, S. E. Antonarakis, A. Reymond, E. Birney, S. Brunak, R. Casadio, R. Guigo, J. Harrow, H. Hermjakob, D. T. Jones, T. Lengauer, C. A. Orengo, L. Patthy, J. M. Thornton, A. Tramontano, & A. Valencia (2007). ‘The implications of alternative splicing in the encode protein complement.’ Proc Natl Acad Sci U S A 104:5495–500. J. W. Tukey (1977). Exploratory Data Analysis. Addison-Wesley. D. W. Ussery, P. F. Hallin, K. Lagesen, & T. M. Wassenaar (2004). ‘Genome update: tRNAs in sequenced microbial genomes.’ Microbiology 150:1603–6. T. Visnes, B. Doseth, H. S. Pettersen, L. Hagen, M. M. L. Sousa, M. Akbari, M. Otterlei, B. Kavli, G. Slupphaug, & H. E. Krokan (2009). ‘Uracil in dna and its processing by different dna glycosylases.’ Philos Trans R Soc Lond B Biol Sci 364:563–8. H. Wang & C. J. Benham (2008). ‘Superhelical destabilization in regulatory regions of stress responsegenes.’ PLoS Comput Biol 4:e17. H. Wang, M. Noordewier, & C. J. Benham (2004). ‘Stress–induced dna duplex destabilization (sidd) in the e. coli genome:sidd sites are closely associated with promoters.’ Genome Res 14:1575–84. 179
BIBLIOGRAPHY R. A. Welch, V. Burland, G. r. Plunkett, P. Redford, P. Roesch, D. Rasko, E. L. Buckles, S.-R. Liou, A. Boutin, J. Hackett, D. Stroud, G. F. Mayhew, D. J. Rose, S. Zhou, D. C. Schwartz, N. T. Perna, H. L. T. Mobley, M. S. Donnenberg, & F. R. Blattner (2002). ‘Extensive mosaic structure revealed by the complete genome sequence ofuropathogenic Escherichia coli.’ Proc Natl Acad Sci U S A 99:17020–4. H. Willenbrock, C. Friis, A. S. Juncker, & D. W. Ussery (2006). ‘An environmental signature for 323 microbial genomes based on codon adaptation indices.’ Genome Biol 7:R114. K.-M. Wu, L.-H. Li, J.-J. Yan, N. Tsao, T.-L. Liao, H.-C. Tsai, C.-P. Fung, H.-J. Chen, Y.-M. Liu, J.-T. Wang, C.-T. Fang, S.-C. Chang, H.-Y. Shu, T.-T. Liu, Y.-T. Chen, Y.- R. Shiau, T.-L. Lauderdale, I.-J. Su, R. Kirby, & S.-F. Tsai (2009). ‘Genome sequencing and comparative analysis of Klebsiella pneumoniae ntuh–k2044, a strain causing liver abscess and meningitis.’ J Bacteriol 191:4492–501. F. Yang, J. Yang, X. Zhang, L. Chen, Y. Jiang, Y. Yan, X. Tang, J. Wang, Z. Xiong, J. Dong, Y. Xue, Y. Zhu, X. Xu, L. Sun, S. Chen, H. Nie, J. Peng, J. Xu, Y. Wang, Z. Yuan, Y. Wen, Z. Yao, Y. Shen, B. Qiang, Y. Hou, J. Yu, & Q. Jin (2005). ‘Genome dynamics and diversity of Shigella species, the etiologic agents ofbacillary dysentery.’ Nucleic Acids Res 33:6445–58. 180
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Peter Fischer Hallin | 2009 Peter F
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Preface This Ph.D. thesis is writte
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thesis, the work is just being publ
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ved at blive publiceret i Standards
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viii
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Paper VI [Lagesen K, Hallin P] 1 ,
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xii
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3.3.3 Refining E. coli and Shigella
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xvi
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xviii 2.17 Pan- and core-genome plo
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Chapter 1 Introduction Introduction
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Chapter 2 Comparative Genomics 2.1
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Comparative Genomics the publicly a
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Comparative Genomics source CDS tot
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Comparative Genomics 1 mysql -N -B
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Listing 2.8: R code to generate a 2
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1st U C A G U 2nd position C A G 3r
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1st U C A G U 2nd position C A G 3r
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Escherichia coli strain K-12, subst
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Comparative Genomics
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3M 2.5M 3.5M 2.5M 2M 0M 2M 0.5M B.
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Streptococcus Escherichia Bacillus
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2.4 Summary Comparative Genomics Th
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Comparative Genomics 2.5 Instant in
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‘ReSourCe is he best online submi
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up to a total of 41 different E. co
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Fig. 2 Genes (or segments) from eac
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Fig. 5 BLASTatlas of Clostridium bo
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different applications, such as ide
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1 Comparative Genomics 2.7 Paper II
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166 literally millions of bacterial
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168
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170 resistance genes on mobile gene
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172 involved in generating diversit
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174 recipient DNA. A feature observ
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176 Fig. 5 Genome length distributi
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178
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180 reasons why organisms remain un
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182 A final problem has to do with
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184 Middendorf B, Hochhut B, Leipol
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1 Comparative Genomics 2.8 Paper II
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2 O. N. Reva et al. Fig. 1. Genome
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4 O. N. Reva et al. decrease of the
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6 O. N. Reva et al. of which are kn
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8 O. N. Reva et al. compiled into a
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10 O. N. Reva et al. encoded by a c
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12 O. N. Reva et al. systems and ef
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1 2.9 Paper IV: The origins of Vibr
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phylogenies based on alternative ho
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Figure 1 Phylogenetic tree of the 1
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25000 20000 15000 10000 5000 0 Pan
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Gap F 2M 2.5M Gap E 875k 750k 625k
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Table 2 A selection of genes locate
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Open Access This article is distrib
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1 Comparative Genomics 2.10 Paper V
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4314 74 Tools Abstract: Of the plet
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4316 74 Tools Size distribution of
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4318 74 Tools Genome atlas Intrinsi
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4320 74 Tools Genome atlas Intrinsi
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4322 74 Tools for Comparison of Bac
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4324 74 Tools for Comparison of Bac
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4326 74 Tools information, as genet
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Chapter 3 rRNA operons and promoter
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tuB murI Fis III Fis II Fis I UP -3
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Bits 2.0 1.5 1.0 0.5 0.0 Bits 2.0 1
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RNA operons and promoter analysis O
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Bits 2.0 1.5 1.0 0.5 0.0 Bits T A T
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Code Meaning Example C Coding CCCCC
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RNA operons and promoter analysis 3
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P2 -10 -35 UP P1 -10 -35 UP FIS FIS
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1 rRNA operons and promoter analysi
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Using HMMs also simplifies the use
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Information content Information con
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of the annotation. Some of the majo
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Page 164 and 165: ing platform-‐independent Java
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Page 178 and 179: Chapter 5 Conclusion and perspectiv
Page 180 and 181: Appendix A Appendix: Workshops, tea
Page 182 and 183: Appendix B Appendix: Ph.D. study pl
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Page 188 and 189: Appendix C Appendix: Courses C.1 Gl
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Page 196 and 197: Appendix: Software 25 [ ] A l t e r
Page 198 and 199: BIBLIOGRAPHY J. Rogers, P. F. Stadl
Page 200 and 201: BIBLIOGRAPHY Q. Jin, Z. Yuan, J. Xu
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