Endophytic colonization is a very complex process which is not yet completely understood. Molecules exuded by the plants may act as signals which influence the ability of the microbe to colonize the host or survive in the rhizosphere. Here we used the whole genome microarray approach to investigate the response of the diazotrophic model endophyte, Azoarcus sp. strain BH72, to exudates of O. sativa cv. Nipponbare in order to identify differentially regulated genes. On exposure to exudates, an overall expression of 4.4% of the 3992 protein coding genes of Azoarcus sp. strain BH72 was altered, out of which 2.4% was upregulated and 2.0% was downregulated. Genes with modulated expression included a few whose involvement in plant-microbe interaction had already been established, whereas a large fraction comprised of genes encoding proteins with putative or unknown functions. Mutational analysis of several differentially regulated genes like those encoding a minor pilin PilX, signal transduction proteins containing GGDEF domains and a serine-threonine kinase as a putative component of the type IV secretion system (T6SS), revealed their role in host colonization. Our data suggest that strain BH72 may be primed for the endophytic lifestyle by exudates, as the expression of bacterial genes relevant for endophytic colonization of roots is induced by root exudates.
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Elucidation of Essential Genes and Mutant Fitness during Adaptation toward Nitrogen Fixation Conditions in the Endophyte Azoarcus olearius BH72 Revealed by Tn-Seq.
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Azoarcus olearius BH72 is a diazotrophic model endophyte that contributes fixed nitrogen to its host plant, Kallar grass, and expresses nitrogenase genes endophytically. Despite extensive studies on biological nitrogen fixation (BNF) of diazotrophic endophytes, little is known about global genetic players involved in survival under respective physiological conditions. Here, we report a global genomic screen for putatively essential genes of employing Tn transposon mutagenesis with a modified transposon combined with high-throughput sequencing (Tn-Seq).
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Department of Microbe-Plant Interactions, Faculty of Biology and Chemistry, University of Bremen, P.O. Box 330440, 28334 Bremen, Germany.
BH72 is an endophyte capable of biological nitrogen fixation (BNF) and of supplying nitrogen to its host plant. Our previous microarray approach provided insights into the transcriptome of strain BH72 under N-fixation in comparison to ammonium-grown conditions, which already indicated the induction of genes not related to the BNF process. Due to the known limitations of the technique, we might have missed additional differentially expressed genes (DEGs).
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Department of Microbe-Plant Interactions, Faculty of Biology and Chemistry, Center for Biomolecular Interactions Bremen, University of Bremen, Bremen, Germany.
Type VI protein secretion systems (T6SSs) have been identified in many plant-associated bacteria. However, despite the fact that effector proteins may modulate host responses or interbacterial competition, only a few have been functionally dissected in detail. We dissected the T6SS in strain BH72, a nitrogen-fixing model endophyte of grasses.
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Department of Microbe-Plant Interactions, Faculty of Biology/Chemistry, University of Bremen, P.O. Box 330440, 28334 Bremen, Germany.
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Article Synopsis
- - The genome of Azoarcus olearius DQS-4, a nitrogen-fixing bacterium from oil-contaminated soil in Taiwan, shows high genetic similarity to Azoarcus sp. BH72 but low similarity to other non-plant-associated strains, indicating its specific traits for plant interaction.
- - DQS-4 contains genes related to nitrogen fixation and plant colonization, enabling it to effectively colonize rice and Setaria viridis, primarily in root areas.
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