165 results on '"Mansfield, John W."'
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2. HrpZ Psph from the Plant Pathogen Pseudomonas syringae pv. phaseolicola Binds to Lipid Bilayers and Forms an Ion-Conducting Pore in vitro
3. Identification of a Pathogenicity Island, Which Contains Genes for Virulence and Avirulence, on a Large Native Plasmid in the Bean Pathogen Pseudomonas syringae Pathovar Phaseolicola
4. Localized Changes in Peroxidase Activity Accompany Hydrogen Peroxide Generation during the Development of a Nonhost Hypersensitive Reaction in Lettuce
5. Effector Identification in Plant Pathogens
6. Localization of Hydrogen Peroxide Accumulation during the Hypersensitive Reaction of Lettuce Cells to Pseudomonas syringae pv phaseolicola
7. Genomic and functional analysis of phage-mediated horizontal gene transfer in Pseudomonas syringae on the plant surface
8. Genomic and functional analysis of phage‐mediated horizontal gene transfer in Pseudomonas syringae on the plant surface
9. Aphid-induced accumulation of trehalose in Arabidopsis thaliana is systemic and dependent upon aphid density
10. Identifying resistance in wild and ornamental cherry towards bacterial canker caused by Pseudomonas syringae
11. A Genome-Wide Functional Investigation into the Roles of Receptor-like Proteins in Arabidopsis
12. Hrp Mutant of Pseudomonas syringae pv phaseolicola Induces Cell Wall Alterations but Not Membrane Damage Leading to the Hypersensitive Reaction in Lettuce
13. Pseudomonas syringae pv. tomato hijacks the Arabidopsis abscisic acid signalling pathway to cause disease
14. Cherry picking by pseudomonads : After a century of research on canker, genomics provides insights into the evolution of pathogenicity towards stone fruits
15. NopB, a type III secreted protein of Rhizobium sp. strain NGR234, is associated with pilus-like surface appendages
16. Cultivar‐specific avirulence and virulence functions assigned to avrPphF in Pseudomonas syringae pv. phaseolicola, the cause of bean halo‐blight disease
17. Highly conserved sequences flank avirulence genes: isolation of novel avirulence genes from Pseudomonas syringae pv. pisi
18. Cherry picking by pseudomonads: After a century of research on canker, genomics provides insights into the evolution of pathogenicity towards stone fruits
19. The metabolic transition during disease following infection of Arabidopsis thaliana by Pseudomonas syringae pv. tomato
20. Pseudomonas syringae effector AvrPtoB suppresses basal defence in Arabidopsis
21. Excision from tRNA genes of a large chromosomal region, carrying avrPphB, associated with race change in the bean pathogen, Pseudomonas syringae pv. phaseolicola
22. A loss of resistance to avirulent bacterial pathogens in tobacco is associated with the attenuation of a salicylic acid-potentiated oxidative burst
23. Cell wall alterations and localized accumulation of feruloyl-3′-methoxytyramine in onion epidermis at sites of attempted penetration by Botrytis allii are associated with actin polarisation, peroxidase activity and suppression of flavonoid biosynthesis
24. Sequence variations in alleles of the avirulence gene avrPphE.R2 from Pseudomonas syringae pv. phaseolicola lead to loss of recognition of the AvrPphE protein within bean cells and a gain in cultivar-specific virulence
25. A rapid and robust method for simultaneously measuring changes in the phytohormones ABA, JA and SA in plants following biotic and abiotic stress
26. Comparative genomics of Pseudomonas syringae reveals convergent gene gain and loss associated with specialization onto cherry (Prunus avium)
27. Comparative genomics of Pseudomonas syringae reveals convergent gene gain and loss associated with specialization onto cherry (Prunus avium)
28. Pseudomonas syringae Differentiates into Phenotypically Distinct Subpopulations During Colonization of a Plant Host
29. Confocal microscopy revealsin plantadynamic interactions between pathogenic, avirulent and non-pathogenicPseudomonas syringaestrains
30. Erratum to: Cultivar‐specific avirulence and virulence functions assigned to avrPphF in Pseudomonas syringae pv. phaseolicola, the cause of bean halo‐blight disease
31. Pseudomonas syringae Differentiates into Phenotypically Distinct Subpopulations During Colonization of a Plant Host
32. Hrp[Z.sub.Psph] from the plant pathogen Pseudomonas syringae pv. phaseolicola binds to lipid bilayers and forms an ion-conducting pore in vitro
33. Rapid, automated detection of stem canker symptoms in woody perennials using artificial neural network analysis
34. Rapid, automated detection of stem canker symptoms in woody perennials using artificial neural network analysis
35. Confocal microscopy reveals <italic>in planta</italic> dynamic interactions between pathogenic, avirulent and non‐pathogenic <italic>Pseudomonas syringae</italic> strains.
36. Two Classes of Plant Antibiotics: Phytoalexins versus "Phytoanticipins"
37. Pseudomonas syringae pv. phaseolicola: from ‘has bean’ to supermodel
38. In planta conditions induce genomic changes in Pseudomonas syringae pv. phaseolicola
39. In vitro antimicrobial activity and fungitoxicity of camalexin from Arabidopsis thaliana against Botrytis cinerea
40. Rapid, automated detection of stem canker symptoms in woody perennials using artificial neural network analysis.
41. Aphid-induced accumulation of trehalose in Arabidopsis thaliana is systemic and dependent upon aphid density
42. Arabidopsis histidine kinase 5 regulates salt sensitivity and resistance against bacterial and fungal infection
43. The Stealth Episome: Suppression of Gene Expression on the Excised Genomic Island PPHGI-1 from Pseudomonas syringae pv. phaseolicola
44. Pseudomonas syringae pv. phaseolicola: from ‘has bean’ to supermodel
45. Genetic Dissection of Basal Resistance to Pseudomonas syringae pv. phaseolicola in Accessions of Arabidopsis
46. In planta conditions induce genomic changes in Pseudomonas syringae pv. phaseolicola
47. Positive Regulation of the Hrp Type III Secretion System in Pseudomonas syringae pv. phaseolicola
48. Negative Regulation of the Hrp Type III Secretion System in Pseudomonas syringae pv. phaseolicola
49. The RAP1 Gene Confers Effective, Race-Specific Resistance to the Pea Aphid in Medicago truncatula Independent of the Hypersensitive Reaction
50. From bacterial avirulence genes to effector functions via thehrpdelivery system: an overview of 25 years of progress in our understanding of plant innate immunity
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