These proteins act in the regulation of the nitrogen-fixation-gen

These proteins act in the regulation of the nitrogen-fixation-gene expression and in the regulation of the succinoglycan exopolysaccharide

(EPSI) production, respectively, showing that, even under stress conditions, PRF 81 retains nitrogen-fixing and symbiosis-establishment potential, which are essential characteristics for agricultural inoculants. Finally, this proteomic experiment provides valuable protein-expression information relevant to the ongoing genome sequencing of strain PRF 81 ( http://​www.​bnf.​lncc.​br), and contributes to our still-poor knowledge of Navitoclax cell line the molecular determinants of the thermotolerance exhibited by R. tropici species. It is a useful reminder that R. tropici is an important species of agronomic interest for its capacity to fix nitrogen under tropical stressful conditions, and also demonstrates high resemblance in many genes, and —now also confirmed in many proteins—to those in pathogenic strains of the genus Agrobacterium. Acknowledgments and funding The work was partially supported

by CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico, Brazil)/MCT/MAPA (577933/2008) and CPNq-Repensa (562009/2010-1). MALDI-TOF was acquired with resources from Fundação Araucária, in a common project coordinated by Dr. Fábio Pedrosa, at the Federal University of Paraná. D.F. The authors thank Dr. Allan R. J. Eaglesham for suggestions on the manuscript. Electronic supplementary material Additional file 1: Table S1. Information about mass spectrometry identification of differentially expressed proteins. All the information GW786034 in vitro contained in Table S1 were obtained for differentially expressed proteins by Mascot (Matrix Science) searches against the public database NCBInr. These spectrometry datasets are also

available at PRIDE ( http://​ebi.​ac.​uk/​pride/​) with the experiment accession number 14817. (DOC 238 KB) References 1. Vance CP: Symbiotic nitrogen fixation and phosphorus acquisition: plant nutrition in a world of declining renewable resources. Plant Akt inhibitor Physiol 2001, 127:390–397.PubMedCrossRef 2. Graham PH, Vance CP: Legumes: Importance and constraints to greater utilization. Plant Physiol 2003, 131:872–877.PubMedCrossRef 3. Saravanan VS, Madhaiyan M, Osborne J, Thangaraju M, Sa TM: Ecological occurrence of Gluconacetobacter diazotrophicus and nitrogen-fixing Vasopressin Receptor Acetobacteraceae members: their possible role in plant growth promotion. Microb Ecol 2008, 55:130–140.PubMedCrossRef 4. Ribeiro RA, Barcellos FG, Thompson FL, Hungria M: Multilocus sequence analysis of Brazilian Rhizobium microsymbionts of common bean (Phaseolus vulgaris L.) reveals unexpected taxonomic diversity. Res Microbiol 2009, 160:297–306.PubMedCrossRef 5. Djordjevic MA, Zurkowski W, Shine J, Rolfe BG: Sym plasmid transfer to various symbiotic mutants of Rhizobium trifolii, R. leguminosarum, and R. meliloti. J Bacteriol 1983, 156:1035–1045.PubMed 6.

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