The Genus Yersinia: Entering the Functional Genomic Era
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Beschreibung
Part I: Evolution And Genomics.
1. Evolution of Pathogenic Yersinia, Some Lights in the Dark; E. Carniel. 2. DNA Adenine Methylation; V.L. Taylor, et al. 3. Tracing Acquisitions and Losses in Yersinia Genomes; A. Rakin, et al. 4. Subtractive Hybridization Uncovers Novel Pathogenicity-Associated Loci in Yersinia enterocolitica; A.N. Iwobi, et al. 5. Identification of Genes Involved in Yersinia pestis Virulence by Signature-Tagged Mutagenesis; Y. Flashner, et al. 6. Characterization of Two Conjugative Yersinia Plasmids Mobilizing pYV; S. Hertwig, et al. 7. Signature-Tagged Mutagenesis of Yersinia pestis; P.C.F. Oyston, et al. 8. Cobalamin Synthesis in Yersinia enterocolitica 8081; M.B. Prentice, et al. 9. Construction of a Yersinia pestis Microarray; R.A. Stabler, et al. 10. A Conjugal Type IV Transfer System in Yersinia enterocolitica Strains; G. Goelz, et al. 11. Transmission Factors: Yersinia pestis Genes Required to Infect the Flea Vector of Plague; B.J. Hinnebusch.
Part II: Pathogenesis And Host Interactions.
12. Rho-GTP Binding Proteins in Yersinia Target Cell Interaction; M. Aepfelbacher, et al. 13. A Technique of Intradermal Injection of Yersinia to Study Y. pestis Physiopathology; F. Guinet, E. Carniel. 14. YopT Is A Cysteine Protease Cleaving Rho Family GTPases; Feng Shao, J.E. Dixon. 15. Structural Studies of Yersinia Adhesin YadA; H. Nummelin, et al. 16. Yersinia pseudotuberculosis Harbors a Type IV Pilus Gene Cluster that Contributes to Pathogenicity; F. Collyn, et al. 17. Salicylanilides are Potent Inhibitors of Type III Secretion in Yersinia; A.M. Kauppi, et al. 18. Mapping of Possible Laminin Binding Sites of Y. pestis Plasminogen Activator (Pla) via Phage Display; O. Benedek, et al. 19. The Fish Pathogen Yersinia ruckeri Possesses a TTS System; D.K. Gunasena, et al. 20. Characterisation of the Type III Secretion Protein YscU in Yersinia pseudotuberculosis; M. Lavander, et al. 21. Mutagenesis Elucidates The Assembly Pathway and Structure of Yersinia pestis F1 Polymer; J.E. Kersley, et al. 22. Characterization of Infections with Wild and Mutant Yersinia pseudotuberculosis Strains in Rabbit Oral Model; H. Najdenski, et al. 23. Identification of Yersinia pestis Pigment Receptor; O.N. Podladchikov, G.G. Dikhanov. 24. Yersinia enterocolitica Biotype 1A: Not as Harmless as You Think; S.M. Tennant, et al. 25. Pestoides F, a Yersinia pestis Strain Lacking Plasminogen Activator, is Virulent by the Aerosol Route; P.L. Worsham, C. Roy. 26. Impact of the Yersinia pseudotuberculosis-Derived Mitogen (YPM) on the Murine Immune System; C. Carnoy, et al. 27. Role of T Cells and Gamma Interferon in Yersinia pseudotuberculosis-Derived Mitogen (YPM)-Induced Toxicity in Mice; H. Kano, et al. 28. Yersinia pestis Pla Has Multiple Virulence-Associated Functions; K. Lähteenäki, et al. 29. Polyclonal B-Cell Activation in Mice
1. Evolution of Pathogenic Yersinia, Some Lights in the Dark; E. Carniel. 2. DNA Adenine Methylation; V.L. Taylor, et al. 3. Tracing Acquisitions and Losses in Yersinia Genomes; A. Rakin, et al. 4. Subtractive Hybridization Uncovers Novel Pathogenicity-Associated Loci in Yersinia enterocolitica; A.N. Iwobi, et al. 5. Identification of Genes Involved in Yersinia pestis Virulence by Signature-Tagged Mutagenesis; Y. Flashner, et al. 6. Characterization of Two Conjugative Yersinia Plasmids Mobilizing pYV; S. Hertwig, et al. 7. Signature-Tagged Mutagenesis of Yersinia pestis; P.C.F. Oyston, et al. 8. Cobalamin Synthesis in Yersinia enterocolitica 8081; M.B. Prentice, et al. 9. Construction of a Yersinia pestis Microarray; R.A. Stabler, et al. 10. A Conjugal Type IV Transfer System in Yersinia enterocolitica Strains; G. Goelz, et al. 11. Transmission Factors: Yersinia pestis Genes Required to Infect the Flea Vector of Plague; B.J. Hinnebusch.
Part II: Pathogenesis And Host Interactions.
12. Rho-GTP Binding Proteins in Yersinia Target Cell Interaction; M. Aepfelbacher, et al. 13. A Technique of Intradermal Injection of Yersinia to Study Y. pestis Physiopathology; F. Guinet, E. Carniel. 14. YopT Is A Cysteine Protease Cleaving Rho Family GTPases; Feng Shao, J.E. Dixon. 15. Structural Studies of Yersinia Adhesin YadA; H. Nummelin, et al. 16. Yersinia pseudotuberculosis Harbors a Type IV Pilus Gene Cluster that Contributes to Pathogenicity; F. Collyn, et al. 17. Salicylanilides are Potent Inhibitors of Type III Secretion in Yersinia; A.M. Kauppi, et al. 18. Mapping of Possible Laminin Binding Sites of Y. pestis Plasminogen Activator (Pla) via Phage Display; O. Benedek, et al. 19. The Fish Pathogen Yersinia ruckeri Possesses a TTS System; D.K. Gunasena, et al. 20. Characterisation of the Type III Secretion Protein YscU in Yersinia pseudotuberculosis; M. Lavander, et al. 21. Mutagenesis Elucidates The Assembly Pathway and Structure of Yersinia pestis F1 Polymer; J.E. Kersley, et al. 22. Characterization of Infections with Wild and Mutant Yersinia pseudotuberculosis Strains in Rabbit Oral Model; H. Najdenski, et al. 23. Identification of Yersinia pestis Pigment Receptor; O.N. Podladchikov, G.G. Dikhanov. 24. Yersinia enterocolitica Biotype 1A: Not as Harmless as You Think; S.M. Tennant, et al. 25. Pestoides F, a Yersinia pestis Strain Lacking Plasminogen Activator, is Virulent by the Aerosol Route; P.L. Worsham, C. Roy. 26. Impact of the Yersinia pseudotuberculosis-Derived Mitogen (YPM) on the Murine Immune System; C. Carnoy, et al. 27. Role of T Cells and Gamma Interferon in Yersinia pseudotuberculosis-Derived Mitogen (YPM)-Induced Toxicity in Mice; H. Kano, et al. 28. Yersinia pestis Pla Has Multiple Virulence-Associated Functions; K. Lähteenäki, et al. 29. Polyclonal B-Cell Activation in Mice
Eigenschaften
Breite: | 157 |
Höhe: | 234 |
Länge: | 27 |
Seiten: | 490 |
Sprachen: | Englisch |
Autor: | José Antonio Bengoechea, Kaisa Granfors, Mikael Skurnik |
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