Conjugative transfer is one of the mechanisms allowing diversification and evolution ofbacteria. Rhizobium etli CFN42 is a bacterial strain whose habitat is the rhizosphere andis able to form nodules as a result of the nitrogen-fixing symbiotic relationship it mayestablish with the roots of Phaseolus vulgaris. R. etli CFN42 contains one chromosomeand six large plasmids (pRet42a ? pRet42f). Most of the genetic information involvedin the establishment of the symbiosis is localized on plasmid pRet42d, named asthe symbiotic plasmid (pSym). This plasmid is able to perform conjugation, usingpSym encoded transfer genes controlled by the RctA/RctB system. Another plasmidof CFN42, pRet42a, has been shown to perform conjugative transfer not only in v...
The establishment of a nitrogen-fixing symbiotic relationship between soil-dwelling bacteria (rhizob...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Symbiotic nitrogen fixation between legumes and rhizobia makes a great contribution to the terrestri...
Rhizobia are Gram-negative bacteria that are able to establish a nitrogen-fixing symbiotic interacti...
One of the greatest inputs of available nitrogen into the biosphere occurs through the biological N2...
Only species belonging to the Fabid clade, limited to four classes and ten families of Angiosperms, ...
Since the discovery that biological nitrogen fixation ensues in nodules resulting from the interacti...
Rhizobia are α‐ and ß‐proteobacteria that associate with legumes in symbiosis to fix atmospheric nit...
Rhizobia are soil-dwelling bacteria capable of forming symbiotic associations with legumes, where th...
Rhizobial symbiosis genes are often carried on symbiotic islands or plasmids that can be transferred...
The symbiosis between legumes and bacteria, known as rhizobia, is a complex process resulting in the...
Rhizobium phaseoli CFN42 DNA was mutated by random insertion of Tn5 from suicide plasmid pJB4JI to o...
Desmanthus paspalaceus (Lindm.) Burkart belongs to the D. virgatus complex, subfamily Mimosoidae. Th...
Bacteria of the genera <u>Rhizobium</u> and <u>Bradyrhizobium</u> are unique...
Legume plants establish a nitrogen-fxing symbiosis with soil bacteria known as rhizobia. Compatibili...
The establishment of a nitrogen-fixing symbiotic relationship between soil-dwelling bacteria (rhizob...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Symbiotic nitrogen fixation between legumes and rhizobia makes a great contribution to the terrestri...
Rhizobia are Gram-negative bacteria that are able to establish a nitrogen-fixing symbiotic interacti...
One of the greatest inputs of available nitrogen into the biosphere occurs through the biological N2...
Only species belonging to the Fabid clade, limited to four classes and ten families of Angiosperms, ...
Since the discovery that biological nitrogen fixation ensues in nodules resulting from the interacti...
Rhizobia are α‐ and ß‐proteobacteria that associate with legumes in symbiosis to fix atmospheric nit...
Rhizobia are soil-dwelling bacteria capable of forming symbiotic associations with legumes, where th...
Rhizobial symbiosis genes are often carried on symbiotic islands or plasmids that can be transferred...
The symbiosis between legumes and bacteria, known as rhizobia, is a complex process resulting in the...
Rhizobium phaseoli CFN42 DNA was mutated by random insertion of Tn5 from suicide plasmid pJB4JI to o...
Desmanthus paspalaceus (Lindm.) Burkart belongs to the D. virgatus complex, subfamily Mimosoidae. Th...
Bacteria of the genera <u>Rhizobium</u> and <u>Bradyrhizobium</u> are unique...
Legume plants establish a nitrogen-fxing symbiosis with soil bacteria known as rhizobia. Compatibili...
The establishment of a nitrogen-fixing symbiotic relationship between soil-dwelling bacteria (rhizob...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Symbiotic nitrogen fixation between legumes and rhizobia makes a great contribution to the terrestri...