2011
DOI: 10.1128/aem.02017-10
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Evidence of an American Origin for Symbiosis-Related Genes in Rhizobium lusitanum

Abstract: Randomly amplified polymorphic DNA (RAPD) analysis was used to investigate the diversity of 179 bean isolates recovered from six field sites in the Arcos de Valdevez region of northwestern Portugal. The isolates were divided into 6 groups based on the fingerprint patterns that were obtained. Representatives for each group were selected for sequence analysis of 4 chromosomal DNA regions. Five of the groups were placed within Rhizobium lusitanum, and the other group was placed within R. tropici type IIA. Therefo… Show more

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Cited by 15 publications
(12 citation statements)
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“…Since the symbiovar phaseoli was not found in the R. gallicum strains isolated in Mesoamerica [49] and considering that this symbiovar evolved with R. etli, it is possible that the transfer of As for the group of strains identified as R. tropici, RHM14 and RHM54, they were identical to the Moroccan strain RP261 [31] and to several American strains from R. tropici and from R. leucaenae (Figure 4). They were also identical to nodC of R. lusitanum type strain, a Portuguese species nodulating common bean that probably acquired its nodC gene from R. leucaenae, since this last species has been found in common bean nodules in Portugal and carries identical nodC gene [55]. Therefore the American origin of the R. tropici strains nodulating P. vulgaris in Morocco seems to be clear in agreement with the suggestions of Diouf et al [10].…”
Section: Identification At Symbiovar Levelsupporting
confidence: 88%
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“…Since the symbiovar phaseoli was not found in the R. gallicum strains isolated in Mesoamerica [49] and considering that this symbiovar evolved with R. etli, it is possible that the transfer of As for the group of strains identified as R. tropici, RHM14 and RHM54, they were identical to the Moroccan strain RP261 [31] and to several American strains from R. tropici and from R. leucaenae (Figure 4). They were also identical to nodC of R. lusitanum type strain, a Portuguese species nodulating common bean that probably acquired its nodC gene from R. leucaenae, since this last species has been found in common bean nodules in Portugal and carries identical nodC gene [55]. Therefore the American origin of the R. tropici strains nodulating P. vulgaris in Morocco seems to be clear in agreement with the suggestions of Diouf et al [10].…”
Section: Identification At Symbiovar Levelsupporting
confidence: 88%
“…Initially this species included two groups, A and B, but recently the strains from group A have been reclassified into a new species named R. leucaenae [38]. It is interesting to highlight that curiously the strains isolated in Morocco belong to R. tropici [31], whereas those found in Europe belong to R. leucaenae [21,55]. This can be due to a better adaptation of each one of these species to different environmental conditions including the local varieties of common bean in each site.…”
Section: Isolation Of Strains and Rapd Fingerprintingmentioning
confidence: 99%
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“…Also, it is in agreement with who tested 28 of indigenous rhizobia nodulating chickpea in India using RFLP to classify their isolates and who found that all RAPD primers detected one or more polymorphic DNA fragments among the studied rhizobia species and that RAPD is a very discriminative and efficient method for differentiating and studying genetic diversity of Rhizobium. Also, Valverde, et al (2011) found that RAPD fingerprint patterns were able to distinguish genomic variation within members of the same species of Rhizobium [33][34][35].…”
Section: Discussionmentioning
confidence: 99%
“…Therefore, C. arietinum establishes endosymbiosis with several Mesorhizobium species; nevertheless, it is a restrictive legume because all the strains nodulating chickpea belong to the symbiovar ciceri [21,30,42]. Moreover, all strains nodulating chickpea isolated from different continents have been shown to harbor closely related nodC genes, including those isolated in Syria and Turkey, the distribution centers of chickpea [33], which suggests a dispersion of chickpea endosymbionts together with its seeds, as already reported for other legumes such as Phaseolus [8,10,27,37] or Vicia [3]. Chickpea seeds may have dispersed strains from their distribution centers that harbored the typical nodulation genes of symbiovar ciceri, acquired through horizontal transfer from several Mesorhizobium species in Africa, Asia and Europe, where the nodC genes are highly conserved across Mesorhizobium strains nodulating chickpea [21].…”
Section: Introductionmentioning
confidence: 96%