Exopolysaccharide Production by Sinorhizobium fredii HH103 Is Repressed by Genistein in a NodD1-Dependent Manner

Francisco Martinez-Abarca,Sebastián Acosta-Jurado,Lidia Cuesta-Berrio,Pilar Navarro-Gómez,José-María Vinardell,Juan-Carlos Crespo-Rivas,Piedad del Socorro Murdoch,José-Enrique Ruiz-Sainz,Shi Jie,Miguel-Ángel Rodríguez-Carvajal

doi:10.1371/journal.pone.0160499

Francisco Martinez-Abarca, Sebastián Acosta-Jurado + Show 8 more

Open Access

https://doi.org/10.1371/journal.pone.0160499

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Journal: PloS one	Publication Date: Aug 3, 2016
Citations: 24	License type: CC BY 4.0

Affiliation: Universidad de Sevilla

Abstract

In the rhizobia-legume symbiotic interaction, bacterial surface polysaccharides, such as exopolysaccharide (EPS), lipopolysaccharide (LPS), K-antigen polysaccharide (KPS) or cyclic glucans (CG), appear to play crucial roles either acting as signals required for the progression of the interaction and/or preventing host defence mechanisms. The symbiotic significance of each of these polysaccharides varies depending on the specific rhizobia-legume couple. In this work we show that the production of exopolysaccharide by Sinorhizobium fredii HH103, but not by other S. fredii strains such as USDA257 or NGR234, is repressed by nod gene inducing flavonoids such as genistein and that this repression is dependent on the presence of a functional NodD1 protein. In agreement with the importance of EPS for bacterial biofilms, this reduced EPS production upon treatment with flavonoids correlates with decreased biofilm formation ability. By using quantitative RT-PCR analysis we show that expression of the exoY2 and exoK genes is repressed in late stationary cultures of S. fredii HH103 upon treatment with genistein. Results presented in this work show that in S. fredii HH103 EPS production is regulated just in the opposite way than other bacterial signals such as Nod factors and type 3 secreted effectors: it is repressed by flavonoids and NodD1 and enhanced by the nod repressor NolR. These results are in agreement with our previous observations showing that lack of EPS production by S. fredii HH103 is not only non-detrimental but even beneficial for symbiosis with soybean.

Highlights

Rhizobia are soil α- and β-proteobacteria able to establish a nitrogen-fixing symbiosis with legumes
Sinorhizobium fredii HH103 EPS production is regulated by nod gene inducing flavonoids
Previous results of our research group had shown that the mucoidy of S. fredii HH103 in YM medium is negatively affected by the presence of genistein, a flavonoid present in soybean root exudates that is an effective nod gene inducer of this strain [6]

Summary

Introduction

Rhizobia are soil α- and β-proteobacteria able to establish a nitrogen-fixing symbiosis with legumes. In this interaction, rhizobia induce the formation of new plant organs, called nodules, on legume roots. Rhizobia differentiate into nitrogen fixing bacteroids which provide the plant with ammonia and receive in turns organic acids [1]. S. fredii HH103 EPS Is Repressed by Flavonoids are recipients of PhD grants from the VPPI from the University of Seville (https://investigacion.us.es/ secretariado-investigacion/plan-propio). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript

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