Sinorhizobium meliloti (Syn. Ensifer meliloti) is a model species for the study of nitrogen fixation and genomic diversity. This species is distributed worldwide in many different soil types, where it occurs as free living form or as symbiont of leguminous plants (Fabaceae), in which it induces the formation of nodules, where bacteria fix nitrogen. Population surveys of this species have shown an extremely high genetic polymorphism among strains, in particular in genomic regions involved in the symbiosis. In recent years the genomics of natural isolates has enabled us to uncover the nature of the high polymorphism, shedding light on the connection between the genetic diversity and functions related to symbiotic interaction, nutrients utiliz...
Communication orale, résuméNitrogen-fixing Sinorhizobium sp. bacteria interact with Medicago truncat...
We investigate the genetic structure and molecular selection pattern of a sympatric population of Si...
University of Minnesota Ph.D. dissertation. November 2013. Mayor: Plant Biological Sciences. 1 compu...
Sinorhizobium meliloti (Syn. Ensifer meliloti) is a model species for the study of nitrogen fixation...
Background: Sinorhizobium meliloti is a model system for the studies of symbiotic nitrogen fixation....
International audienceBACKGROUND: Sinorhizobium meliloti is a model system for the studies of symbio...
The rhizosphere is colonized by a large variety of bacterial community and, thanks to the attractive...
Abstract Background The sinorhizobia are amongst the most well studied members of nitrogen-fixing ro...
<div><p>The symbiosis between rhizobial bacteria and legume plants has served as a model for investi...
Background: Population genetic analyses based on genome-wide sequencing data have been carried out f...
To serve as inoculants of legumes, nitrogen-fixing rhizobium strains should be competitive and toler...
Giuntini E, Mengoni A, De Filippo C, et al. Large-scale genetic variation of the symbiosis-required ...
© 2015, Molina-Sánchez et al. The symbiotic, nitrogen-fixing bacterium Sinorhizobium meliloti has be...
Understanding functional diversity is one of the main goals of microbial ecology, and definition of ...
International audienceWe investigated the genetic diversity and symbiotic efficiency of 223 Sinorhiz...
Communication orale, résuméNitrogen-fixing Sinorhizobium sp. bacteria interact with Medicago truncat...
We investigate the genetic structure and molecular selection pattern of a sympatric population of Si...
University of Minnesota Ph.D. dissertation. November 2013. Mayor: Plant Biological Sciences. 1 compu...
Sinorhizobium meliloti (Syn. Ensifer meliloti) is a model species for the study of nitrogen fixation...
Background: Sinorhizobium meliloti is a model system for the studies of symbiotic nitrogen fixation....
International audienceBACKGROUND: Sinorhizobium meliloti is a model system for the studies of symbio...
The rhizosphere is colonized by a large variety of bacterial community and, thanks to the attractive...
Abstract Background The sinorhizobia are amongst the most well studied members of nitrogen-fixing ro...
<div><p>The symbiosis between rhizobial bacteria and legume plants has served as a model for investi...
Background: Population genetic analyses based on genome-wide sequencing data have been carried out f...
To serve as inoculants of legumes, nitrogen-fixing rhizobium strains should be competitive and toler...
Giuntini E, Mengoni A, De Filippo C, et al. Large-scale genetic variation of the symbiosis-required ...
© 2015, Molina-Sánchez et al. The symbiotic, nitrogen-fixing bacterium Sinorhizobium meliloti has be...
Understanding functional diversity is one of the main goals of microbial ecology, and definition of ...
International audienceWe investigated the genetic diversity and symbiotic efficiency of 223 Sinorhiz...
Communication orale, résuméNitrogen-fixing Sinorhizobium sp. bacteria interact with Medicago truncat...
We investigate the genetic structure and molecular selection pattern of a sympatric population of Si...
University of Minnesota Ph.D. dissertation. November 2013. Mayor: Plant Biological Sciences. 1 compu...