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Literature Dong, Y. H., Zhang, X. F., Xu, J. L. & Zhang, L. H. (2004). Insecticidal Bacillus thuringiensis silences Erwinia carotovora virulence by a new form of microbial antagonism, signal interference. Appl Environ Microbiol 70, 954-960. Doudoroff, M. & Palleroni, N. J. (1974). Genus I. Pseudomonas Migula. In Bergey's manual of determinative bacteriology, pp. 217-243. Edited by R. E. Buchanan & N. E. Gibbons. Baltimore, Md.: Williams & Wilkins. Duffy, B., Schouten, A. & Raaijmakers, J. M. (2003). Pathogen self-defense: Mechanisms to counteract microbial antagonism. Annual Review of Phytopathology 41, 501-538. Eastgate, J. A. (2000). Erwinia amylovora : the molecular basis of fireblight disease. Molecular Plant Pathology 1, 325-329. Emmert, E. A. & Handelsman, J. (1999). Biocontrol of plant disease: a (gram- ) positive perspective. FEMS Microbiolgy Letters 171, 1-9. Engelmann, M. D., Bobier, R. T., Hiatt, T. & Cheng, I. F. (2003). Variability of the Fenton reaction characteristics of the EDTA, DTPA, and citrate complexes of iron. Biometals 16, 519-527. Expert, D. (1999). Withholding and exchanging iron: Interactions between Erwinia spp. and their plant hosts. Annual Review of Phytopathology 37, 307- 334. Ferguson, A. D., Chakraborty, R., Smith, B. S., Esser, L., van der Helm, D. & Deisenhofer, J. (2002). Structural basis of gating by the outer membrane transporter FecA. Science 295, 1715-1719. Finking, R. & Marahiel, M. A. (2004). Biosynthesis of nonribosomal peptides. Annual Review of Microbiology, 453-477. Finlay, B. B. & Falkow, S. (1997). Common themes in microbial pathogenicity revisited. Microbiology and molecular biology reviews 61, 136-169. Franza, T. & Expert, D. (1991). The virulence-associated chrysobactin iron uptake system of Erwinia chrysanthemi 3937 involves an operon encoding transport and biosynthetic functions. Journal of Bacteriology 173, 6874-6881. Franza, T., Mahe, B. & Expert, D. (2005). Erwinia chrysanthemi requires a second iron transport route dependent of the siderophore achromobactin for extracellular growth and plant infection. Molecular Microbiology 55, 261-275. Fuchs, R., Schafer, M., Geoffroy, V. & Meyer, J. M. (2001). Siderotyping-a powerful tool for the characterization of pyoverdines. Current Medicinal Chemistry 1, 31-57. 85
Literature Galperin, M. Y. (2006). Structural classification of bacterial response regulators: diversity of output domains and domain combinations. Journal of Bacteriology 188, 4169-4182. Guerinot, M. L. (1994). Microbial iron transport. Annual Review of Microbiology 48, 743-772. Haas, D., Blumer, C. & Keel, C. (2000). Biocontrol ability of fluorescent pseudomonads genetically dissected: importance of positive feedback regulation. Current Opinion in Biotechnology 11, 290-297. Haas, D. & Defago, G. (2005). Biological control of soil-borne pathogens by fluorescent pseudomonads. Nature Reviews Microbiol 3, 307-319. Hamdan, H., Weller, D. M. & Thomashow, L. S. (1991). Relative importance of fluorescent siderophores and other factors in biological control of Gaeumannomyces graminis var. tritici by Pseudomonas fluorescens 2-79 and M4-80R. Applied & Environmental Microbiology 57, 3270-3277. Handelsman, J. & Stabb, E. V. (1996). Biocontrol of Soilborne Plant Pathogens. Plant Cell 8, 1855-1869. Harris, W. R., Carrano, C. J. & Raymond, K. N. (1979). Coordination chemistry of microbial iron transport compounds.16. Isolation, characterization, and formation constants of ferric aerobactin. Journal of the American Chemical Society 101, 2722-2727. Hirai, T., Fukushima, K., Kumamoto, K. & Iwahashi, H. (2005). Effects of some naturally occurring iron ion chelators on in vitro superoxide radical formation. Biology of trace element research 108, 77-85. Hutcheson, S. W. (2001). The molecular biology of hypersensitivity to plant pathogenic bacteria. Journal of Plant Pathology 83, 151-172. Janisiewicz, W. J. & Korsten, L. (2002). Biological control of postharvest diseases of fruits. Annual Review of Phytopathology 40, 411-441. Ji, P. & Wilson, M. (2003). Enhancement of population size of a biological control agent and efficacy in control of bacterial speck of tomato through salicylate and ammonium sulfate amendments. Applied & Environmental Microbiology 69, 1290-1294. Jülich, M., Taraz, K., Budzikiewicz, H., Geoffroy, V., Meyer, J. M. & Gardan, L. (2001). The structure of the pyoverdin isolated from various Pseudomonas syringae pathovars. Zeitschrift für Naturforschung [C] 56, 687- 694. Keel, C., Weller, D. M., Natsch, A., Defago, G., Cook, R. J. & Thomashow, L. S. (1996). Conservation of the 2,4-diacetylphloroglucinol biosynthesis locus 86
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Siderophore production of Pseudomon
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Acknowledgements This project was s
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Abbreviations Ach achromobactin-lik
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Contents 4.1.2 Pseudomonas syringae
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Contents 5.3 Influence of sideropho
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Introduction 2 Introduction Like hu
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Introduction In contrast to the rhi
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Introduction 2.1.2 Host, pathogen a
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Introduction The relationship betwe
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Introduction developement of resist
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Introduction Fe 2+ + H 2 O 2 → Fe
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Introduction 1997a; May et al., 199
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Introduction Pss22d demonstrated a
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Introduction 2.4 Aim of this study
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Material and Methods Tab. 4. Antibi
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Material and Methods Iron-free 5b m
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Material and Methods Solution3, car
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Material and Methods 3.6 Plasmids T
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Material and Methods PCR-Screening
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Material and Methods on ice for 10
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Material and Methods stained in eth
Page 43 and 44: Material and Methods 4.2.5.3 Conver
Page 45 and 46: Material and Methods 4.2.5.9 Ligati
Page 47 and 48: Material and Methods strains were s
Page 49 and 50: Material and Methods 9.5). For sign
Page 51 and 52: Material and Methods gentle shaking
Page 53 and 54: Material and Methods columns were w
Page 55 and 56: Results 5 Results 5.1 Analysis of s
Page 57 and 58: Results The 13-kb open reading fram
Page 59 and 60: Results If integration is due to a
Page 61 and 62: Results Yersiniabactin is a siderop
Page 63 and 64: Results Next, a large number of tra
Page 65 and 66: Results Nevertheless the site of tr
Page 67 and 68: Results Achr2_KpnI_rev binding site
Page 69 and 70: Results Interestingly the mutant Ps
Page 71 and 72: Results XAD4-purification yielded i
Page 73 and 74: Results After changing the mobile p
Page 75 and 76: Results P P A Fig. 21. Isoelectic f
Page 77 and 78: Results reduced in comparison to th
Page 79 and 80: Results A-E represents single inocu
Page 81 and 82: Results Tab. 10. Development of pop
Page 83 and 84: Results Tab. 11. Distribution of th
Page 85 and 86: Discussion bacteria with redundande
Page 87 and 88: Discussion 6.2 Possible regulation
Page 89 and 90: Discussion stationary phase transit
Page 91 and 92: Discussion and bacterium (Loper et
Page 93: Literature Bultreys, A., Gheysen, I
Page 97 and 98: Literature Mazzola, M. (2002). Mech
Page 99 and 100: Literature Schubert, S., Rakin, A.,
Page 101: Literature Zou, J., Rodriguez-Zas,
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