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Bacterial Analogs of Plant Tetrahydropyridine Alkaloids Mediate Microbial Interactions in a Rhizosphere Model System
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The microbiomes of plants are critical to host physiology and development. Microbes are attracted to the rhizosphere due to massive secretion of plant photosynthates from roots. Microorganisms that successfully join the rhizosphere community from bulk soil have access to more abundant and diverse molecules, producing a highly competitive and selective environment. In the rhizosphere, as in other microbiomes, little is known about the genetic basis for individual species’ behaviors within the community. In this study, we characterized competition between
Pseudomonas koreensis
and
Flavobacterium johnsoniae
, two common rhizosphere inhabitants. We identified a widespread gene cluster in several
Pseudomonas
spp. that is necessary for the production of a novel family of tetrahydropyridine alkaloids that are structural analogs of plant alkaloids. We expand the known repertoire of antibiotics produced by
Pseudomonas
in the rhizosphere and demonstrate the role of the metabolites in interactions with other rhizosphere bacteria.
Title: Bacterial Analogs of Plant Tetrahydropyridine Alkaloids Mediate Microbial Interactions in a Rhizosphere Model System
Description:
The microbiomes of plants are critical to host physiology and development.
Microbes are attracted to the rhizosphere due to massive secretion of plant photosynthates from roots.
Microorganisms that successfully join the rhizosphere community from bulk soil have access to more abundant and diverse molecules, producing a highly competitive and selective environment.
In the rhizosphere, as in other microbiomes, little is known about the genetic basis for individual species’ behaviors within the community.
In this study, we characterized competition between
Pseudomonas koreensis
and
Flavobacterium johnsoniae
, two common rhizosphere inhabitants.
We identified a widespread gene cluster in several
Pseudomonas
spp.
that is necessary for the production of a novel family of tetrahydropyridine alkaloids that are structural analogs of plant alkaloids.
We expand the known repertoire of antibiotics produced by
Pseudomonas
in the rhizosphere and demonstrate the role of the metabolites in interactions with other rhizosphere bacteria.
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