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Int J Mol Sci


Title:"Sinorhizobium meliloti DnaJ Is Required for Surface Motility, Stress Tolerance, and for Efficient Nodulation and Symbiotic Nitrogen Fixation"
Author(s):Brito-Santana P; Duque-Pedraza JJ; Bernabeu-Roda LM; Carvia-Hermoso C; Cuellar V; Fuentes-Romero F; Acosta-Jurado S; Vinardell JM; Soto MJ;
Address:"Estacion Experimental del Zaidin, CSIC, Department of Biotechnology and Environmental Protection, 18008 Granada, Spain. Facultad de Biologia, Departamento de Microbiologia, Universidad de Sevilla, 41012 Sevilla, Spain. Centro Andaluz de Biologia del Desarrollo, CSIC, Junta de Andalucia, Departamento de Biologia Molecular e Ingenieria Bioquimica, Universidad Pablo de Olavide, 41013 Seville, Spain"
Journal Title:Int J Mol Sci
Year:2023
Volume:20230319
Issue:6
Page Number: -
DOI: 10.3390/ijms24065848
ISSN/ISBN:1422-0067 (Electronic) 1422-0067 (Linking)
Abstract:"Bacterial surface motility is a complex microbial trait that contributes to host colonization. However, the knowledge about regulatory mechanisms that control surface translocation in rhizobia and their role in the establishment of symbiosis with legumes is still limited. Recently, 2-tridecanone (2-TDC) was identified as an infochemical in bacteria that hampers microbial colonization of plants. In the alfalfa symbiont Sinorhizobium meliloti, 2-TDC promotes a mode of surface motility that is mostly independent of flagella. To understand the mechanism of action of 2-TDC in S. meliloti and unveil genes putatively involved in plant colonization, Tn5 transposants derived from a flagellaless strain that were impaired in 2-TDC-induced surface spreading were isolated and genetically characterized. In one of the mutants, the gene coding for the chaperone DnaJ was inactivated. Characterization of this transposant and newly obtained flagella-minus and flagella-plus dnaJ deletion mutants revealed that DnaJ is essential for surface translocation, while it plays a minor role in swimming motility. DnaJ loss-of-function reduces salt and oxidative stress tolerance in S. meliloti and hinders the establishment of efficient symbiosis by affecting nodule formation efficiency, cellular infection, and nitrogen fixation. Intriguingly, the lack of DnaJ causes more severe defects in a flagellaless background. This work highlights the role of DnaJ in the free-living and symbiotic lifestyles of S. meliloti"
Keywords:*Nitrogen Fixation/genetics *Sinorhizobium meliloti/genetics Symbiosis/genetics Medicago sativa/metabolism Bacterial Proteins/genetics/metabolism Rhizobium chaperone flagella nitrogen fixation nodulation plant colonization stress tolerance surface motilit;
Notes:"MedlineBrito-Santana, Paula Duque-Pedraza, Julian J Bernabeu-Roda, Lydia M Carvia-Hermoso, Cristina Cuellar, Virginia Fuentes-Romero, Francisco Acosta-Jurado, Sebastian Vinardell, Jose-Maria Soto, Maria J eng PGC2018-096477-B-I00, PID2019-107634R, and PID2021-123540NB-I00/MCIN/AEI/10.13039/501100011033 and 'ERDF A way of making Europe'/ Switzerland 2023/03/30 Int J Mol Sci. 2023 Mar 19; 24(6):5848. doi: 10.3390/ijms24065848"

 
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