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Publications by S Bardin
A Phosphate Transport System Is Required for Symbiotic Nitrogen Fixation by Rhizobium Meliloti.
Journal of Bacteriology
Microbiology
Molecular Biology
Related publications
Legume Symbiotic Nitrogen Fixation by -Proteobacteria Is Widespread in Nature
Journal of Bacteriology
Microbiology
Molecular Biology
The Symbiotic Defect of Rhizobium Meliloti Exopolysaccharide Mutants Is Suppressed by lpsZ+, a Gene Involved in Lipopolysaccharide Biosynthesis.
Journal of Bacteriology
Microbiology
Molecular Biology
Regulation of the Phosphate Stress Response in Rhizobium Meliloti by PhoB.
Applied and Environmental Microbiology
Applied Microbiology
Biotechnology
Ecology
Food Science
Rhizobium Meliloti Mutants Unable to Synthesize Anthranilate Display a Novel Symbiotic Phenotype.
Journal of Bacteriology
Microbiology
Molecular Biology
Reductive Dechlorination of Polychlorinated Biphenyls Is Coupled to Nitrogen Fixation by a Legume-Rhizobium Symbiosis
Science China Earth Sciences
Earth
Planetary Sciences
The Model Symbiotic Association Between Medicago Truncatula Cv. Jemalong and Rhizobium Meliloti Strain 2011 Leads to N-Stressed Plants When Symbiotic N2 Fixation Is the Main N Source for Plant Growth
Journal of Experimental Botany
Plant Science
Physiology
TheMedicago Truncatula N5Gene Encoding a Root-Specific Lipid Transfer Protein Is Required for the Symbiotic Interaction withSinorhizobium Meliloti
Molecular Plant-Microbe Interactions
Medicine
Agronomy
Crop Science
Physiology
Conjugative Transfer of P42a From Rhizobium Etli CFN42, Which Is Required for Mobilization of the Symbiotic Plasmid, Is Regulated by Quorum Sensing
Journal of Bacteriology
Microbiology
Molecular Biology
Studies on Rhizobium Meliloti and Rhizobium Japonicum