S. E. Lindow scite author profile

Erwinia herbicola pv. gypsophilae (Ehg), which induces galls on Gypsophila paniculata, harbors two major pathways for indole-3-acetic acid (IAA) synthesis, the indole-3-acetamide (IAM) and indole-3-pyruvate (IPyA) routes, as well as cytokinin biosynthetic genes. Mutants were generated in which the various biosynthetic routes were disrupted separately or jointly in order to assess the contribution of IAA of various origins and cytokinins to pathogenicity and epiphytic fitness. Inactivation of the IAM pathway or cytokinin biosynthesis caused the largest reduction in gall size. Inactivation of the IPyA pathway caused a minor, nonsignificant decrease in pathogenicity. No further reduction in gall size was observed by the simultaneous inactivation of both IAA pathways only or in combination with that of cytokinin production. However, inactivation of the IPyA pathway caused a 14-fold reduction in the population of Ehg on bean plants. Inactivation of the IAM pathway or cytokinin production did not affect epiphytic fitness. While the apparent transcriptional activity of iaaM-inaZ fusion increased slightly in cells of Ehg on bean and gypsophila leaves, compared with that in culture, very high levels of induction were observed in cells injected into gypsophila stems. In contrast, moderate levels of induction of ipdC-inaZ in Ehg were observed on leaves of these plants and in gypsophila stems, when compared with that in culture. These results suggest that the IAM pathway is involved primarily in gall formation and support the main contribution of the IpyA pathway to the epiphytic fitness of this bacterial species.

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Effect of Plant Species and Environmental Conditions on Epiphytic Population Sizes ofPseudomonas syringaeand other Bacteria

O’Brien¹,

Lindow²

1989

Phytopathology

159

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Localization of Ice Nucleation Activity and theiceCGene Product inPseudomonas syringaeandEscherichia coli

Lindow¹

1989

MPMI

113

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Endophytic Colonization of Plants by the Biocontrol Agent Rhizobium etli G12 in Relation to Meloidogyne incognita Infection

Hallmann¹,

Quadt-Hallmann²,

Miller³

et al. 2001

Phytopathology®

130

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The external and internal colonization of potato and Arabidopsis roots by the biocontrol strain Rhizobium etli G12 containing a plasmidborne trp promoter green fluorescent protein transcriptional fusion, pGT-trp, was studied in the presence and absence of the root-knot nematode Meloidogyne incognita. Plant colonization behavior and biocontrol potential of the marked strain G12(pGT-trp) was not altered compared with the parental strain. Plasmid pGT-trp was stable for more than 80 generations without selection and conferred sufficient fluorescence to detect single bacterial cells in planta. Although bacteria were found over the entire rhizoplane, they preferentially colonized root tips, the emerging lateral roots, and galled tissue caused by Meloidogyne infestation. Internal colonization of potato roots was mainly observed in epidermal cells, especially root hairs. G12(pGT-trp) colonization was also observed in inner Arabidopsis root tissues in areas of vascularization. In the presence of M. incognita, G12(pGT-trp) colonized the interior of nematode galls in high numbers. In some cases, bacterial colonization even extended from the galled tissue into adjacent root tissue. The internally colonized sites in roots were often discontinuous. Fluorescence microscopy of gfp-tagged rhizobacteria was a sensitive and a rapid technique to study external and internal colonization of plant roots by bacteria interacting with nematodes.

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Lack of Correlation of In Vitro Antibiosis with Antagonism of Ice Nucleation Active Bacteria on Leaf Surfaces by Non-Ice Nucleation Active Bacteria

Lindow¹

1988

Phytopathology

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S. E. Lindow

Differential Involvement of Indole-3-Acetic Acid Biosynthetic Pathways in Pathogenicity and Epiphytic Fitness of Erwinia herbicola pv. gypsophilae

Effect of Plant Species and Environmental Conditions on Epiphytic Population Sizes ofPseudomonas syringaeand other Bacteria

Localization of Ice Nucleation Activity and theiceCGene Product inPseudomonas syringaeandEscherichia coli

Endophytic Colonization of Plants by the Biocontrol Agent Rhizobium etli G12 in Relation to Meloidogyne incognita Infection

Lack of Correlation of In Vitro Antibiosis with Antagonism of Ice Nucleation Active Bacteria on Leaf Surfaces by Non-Ice Nucleation Active Bacteria

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