Transcriptome profiling of a Sinorhizobium meliloti fadD mutant reveals the role of rhizobactin 1021 biosynthesis and regulation genes in the control of swarming

Nogales, Joaquina; Domínguez-Ferreras, Ana; Amaya-Gómez, Carol V.; Dillewijn, Pieter van; Cuéllar, Virginia; Sanjuán, Juan; Olivares, José; Soto, Marı́a José

doi:10.1186/1471-2164-11-157

Cited by 45 publications

(77 citation statements)

References 62 publications

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“…On semisolid MM, surface translocation of these two strains was severely affected compared to that of their parental strains although not completely abolished, as is the case for 2011rhbA62 and 1021rhbA, mutant strains unable to produce the siderophore rhizobactin 1021 that are derived from Rm2011 and Rm1021, respectively (Fig. 1C) (32). This result demonstrates that ExpR-deficient S. meliloti strains are able to show flagellum-driven surface translocation (i.e., swarming motility) on semisolid MM, and therefore, we can conclude that ExpR is not required for swarming.…”

Section: Resultsmentioning

confidence: 99%

“…However, our recent data are in disagreement with these findings. We have reported that the commonly used S. meliloti laboratory strain Rm1021 and the closely related strain Rm2011, both known to have a disrupted copy of expR, are able to swarm on semisolid minimal medium (32). To solve the discrepancies between these reports, in this work, we have reexamined the role played by the expR gene in swarming of S. meliloti.…”

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confidence: 86%

“…Swimming was examined on plates prepared with BM containing 0.3% Bacto agar and inoculated with 3-l droplets of rhizobial cultures grown in TY (optical density at 600 nm ϭ 1). Surface motility was analyzed using two different methodologies: (i) the motility assay described by Bahlawane et al (2) in which 3 l of overnight TY rhizobial cultures was inoculated onto the surface of BM containing 0.6% Bacto agar and (ii) the motility test described in our previous work (32,42) in which 2 l of washed, 10-fold-concentrated of cultures grown in TY broth to the late exponential phase was inoculated onto semisolid MM plates. For swimming and surface motility tests performed on BM, the migration zone was determined as the colony diameter in millimeters.…”

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confidence: 99%

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ExpR Is Not Required for Swarming but Promotes Sliding in Sinorhizobium meliloti

et al. 2012

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Swarming is a mode of translocation dependent on flagellar activity that allows bacteria to move rapidly across surfaces. In several bacteria, swarming is a phenotype regulated by quorum sensing. It has been reported that the swarming ability of the soil bacterium Sinorhizobium meliloti Rm2011 requires a functional ExpR/Sin quorum-sensing system. However, our previous published results demonstrate that strains Rm1021 and Rm2011, both known to have a disrupted copy of expR, are able to swarm on semisolid minimal medium. In order to clarify these contradictory results, the role played by the LuxR-type regulator ExpR has been reexamined. Results obtained in this work revealed that S. meliloti can move over semisolid surfaces using at least two different types of motility. One type is flagellum-independent surface spreading or sliding, which is positively influenced by a functional expR gene mainly through the production of exopolysaccharide II (EPS II). To a lesser extent, EPS II-deficient strains can also slide on surfaces by a mechanism that is at least dependent on the siderophore rhizobactin 1021. The second type of surface translocation shown by S. meliloti is swarming, which is greatly dependent on flagella and rhizobactin 1021 but does not require ExpR. We have extended our study to demonstrate that the production of normal amounts of succinoglycan (EPS I) does not play a relevant role in surface translocation but that its overproduction facilitates both swarming and sliding motilities.

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ExpR Is Not Required for Swarming but Promotes Sliding in Sinorhizobium meliloti

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“…In R. etli, swarming is regulated by the CinIRS quorum-sensing system, and the long-chain N-acyl homoserine lactone molecules produced by CinI have biosurfactant-like activity and are present in the extracellular matrix secreted by swarmer cells (Daniels et al 2006). Swarming motility has also been demonstrated in Bradyrhizobium japonicum (Covelli et al 2013) and in Sinorhizobium meliloti (Soto et al 2002;Nogales et al 2010;Gao et al 2012). Similar to R. leguminosarum, swarmer cells formed by S. meliloti QS77 are hyperflagellated.…”

Section: Introductionmentioning

confidence: 91%

“…Swarming behaviour is prevalent within the rhizobia (Soto et al 2002;Daniels et al 2006;Braeken et al 2008;Nogales et al 2010;Tambalo et al 2010c;Covelli et al 2013), but little is known regarding the signals and signalling pathways that induce swarmer cell differentiation. Therefore, we initiated this study to investigate the possible effects of host plant seed exudates on the swarming behaviour of R. leguminosarum.…”

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confidence: 99%

Legume seed exudates and Physcomitrella patens extracts influence swarming behavior in Rhizobium leguminosarum

et al. 2014

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Plants are known to secrete chemical compounds that can change the behavior of rhizosphere-inhabiting bacteria. We investigated the effects of extracts from legume host plants on the swarming behavior of Rhizobium leguminosarum bv. viciae. We also investigated the effects on swarming when Rhizobium is exposed to extracts from an ancestor to vascular plants, the model bryophyte Physcomitrella patens. Lentil and faba bean seed exudates enhanced and inhibited swarming motility, respectively, whereas pea seed exudates had no observable effect on swarming. Swarming was also enhanced by the moss extracts. Exposure to lentil seed exudates and the moss extract increased flaA expression 2-fold, while faba bean seed exudates exposure decreased expression 3-fold, suggesting that the swarming effect could, in part, be due to regulation of flagellin gene expression. However, the exudates and extracts did not significantly affect flaA gene expression in planktonic motile cells, indicating that the response to flagellar regulation is specific to a physiology unique to the swarming cell. Transmission electron microscopy demonstrated that addition of the lentil seed exudate and the moss extract results in earlier differentiation into swarmer cells, which could contribute to the development of a larger swarming surface area. To gain further mechanistic insight into the effect of the moss extract on swarming, a moss strigolactone-deficient mutant (Ppccd8⌬) was tested. A reduction in the promotive effect was observed, suggesting that the plant hormone strigolactone may be a signalling molecule activating swarming motility in R. leguminosarum.Key words: Rhizobium, swarming motility, plant extracts. Résumé :Les plantes sont reconnues pour sécréter des composés chimiques qui modifient le comportement des bactéries vivant en rhizosphère. Nous avons examiné l'impact d'extraits de plantes légumineuses hôtes sur l'essaimage de Rhizobium leguminosarum bv. viciae. Nous avons également examiné la modulation de l'essaimage lorsque Rhizobium était exposé à des extraits d'un ancêtre des plantes vasculaires, la bryophyte modèle Physcomitrella patens. Des exsudats de graines de lentille et de féveroles ont respectivement stimulé et inhibé l'essaimage, alors que des exsudats de graines de pois n'ont pas eu d'effet notable. L'essaimage a aussi été stimulé par des extraits de mousse. L'exposition aux exsudats de graines de lentille et à l'extrait de mousse a doublé l'expression de flaA alors que les exsudats de graines de féveroles l'ont diminué des deux tiers, ce qui indique que l'effet sur l'essaimage pourrait être partiellement attribuable à la régulation de l'expression du gène de la flagelline. Or, les exsudats et extraits n'ont pas eu d'incidence significative sur l'expression du gène flaA chez les cellules planctoniques motiles, ce qui indique que la réponse en termes de régulation flagellaire n'opérerait que grâce à une physiologie particulière de la cellule en essaimage. La microscopie électronique par transmission a démontré que ...

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Motility and Chemotaxis in the Rhizobia

Tambalo

Yost

Hynes

2015

Biological Nitrogen Fixation

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Transcriptome profiling of a Sinorhizobium meliloti fadD mutant reveals the role of rhizobactin 1021 biosynthesis and regulation genes in the control of swarming

Cited by 45 publications

References 62 publications

ExpR Is Not Required for Swarming but Promotes Sliding in Sinorhizobium meliloti

ExpR Is Not Required for Swarming but Promotes Sliding in Sinorhizobium meliloti

Legume seed exudates and Physcomitrella patens extracts influence swarming behavior in Rhizobium leguminosarum

Motility and Chemotaxis in the Rhizobia

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