SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3145416092> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W3145416092 endingPage "126203" @default.
W3145416092 startingPage "126203" @default.
W3145416092 abstract "In this work, we investigated Bradyrhizobium strains isolated from soils collected from the rhizosphere of native and exotic legumes species inhabiting two ecoclimatic zones - asubtropical-lowland pasture (Pampa Biome) and a volcanic plateau covered by Araucaria Moist Forests (Atlantic Forest Biome). The rhizobial strains were isolated from the nodules of seven native and one exotic legume species used as rhizobium traps. Single-gene (recA, glnII, dnaK) and combined-gene MLSA analyses (dnaK-glnII-gyrB-recA-rpoB) revealed that nearly 85% of the isolates clustered in B. elkanii supergroup, while the remaining (except for two isolates) in B. japonicum supergroup, albeit, in most cases, separately from the type strains of Bradyrhizobium species. As a symbiotic gene marker, a portion of nifD gene was sequenced for 194 strains. In the nifD-tree, an American branch III.3D (104 isolates), was the most numerous among the isolates. A significant portion of the isolates clustered in American groups; subclade III.4 (40 strains), Clade VII (3 strains), and a new Clade XX (4 strains). Most of the remaining strains belonged to a pantropical III.3C branch (39 isolates). On the other hand, identification of isolates belonging, respectively, to Clade I and Clade II may result of spreading of the Australian (Clade I) and European (Clade II) bradyrhizobia following the introduction of their legume hosts. Our study indicated that the American groups predominated in the symbiotic Bradyrhizobium communities in southern Brazil. However, there is a significant component of exotic lineages, resulting from the dispersal of pantropical Fabaceae taxa and the introduction of exotic legumes." @default.
W3145416092 created "2021-04-13" @default.
W3145416092 creator A5003619765 @default.
W3145416092 creator A5013754322 @default.
W3145416092 creator A5036925783 @default.
W3145416092 creator A5048449390 @default.
W3145416092 creator A5055227849 @default.
W3145416092 creator A5064973536 @default.
W3145416092 creator A5073426750 @default.
W3145416092 creator A5073712330 @default.
W3145416092 creator A5077557865 @default.
W3145416092 creator A5089056757 @default.
W3145416092 date "2021-05-01" @default.
W3145416092 modified "2023-10-14" @default.
W3145416092 title "Diversity and phylogenetic affinities of Bradyrhizobium isolates from Pampa and Atlantic Forest Biomes" @default.
W3145416092 cites W1525897363 @default.
W3145416092 cites W1527239579 @default.
W3145416092 cites W1573962289 @default.
W3145416092 cites W1661708608 @default.
W3145416092 cites W1952222996 @default.
W3145416092 cites W1969042907 @default.
W3145416092 cites W1980303206 @default.
W3145416092 cites W1997375019 @default.
W3145416092 cites W2003912728 @default.
W3145416092 cites W2004550007 @default.
W3145416092 cites W2009372714 @default.
W3145416092 cites W2012039722 @default.
W3145416092 cites W2014805041 @default.
W3145416092 cites W2015645040 @default.
W3145416092 cites W2022505253 @default.
W3145416092 cites W2022663471 @default.
W3145416092 cites W2027551912 @default.
W3145416092 cites W2034767282 @default.
W3145416092 cites W2036453815 @default.
W3145416092 cites W2045460287 @default.
W3145416092 cites W2046953590 @default.
W3145416092 cites W2051656526 @default.
W3145416092 cites W2055043387 @default.
W3145416092 cites W2057155440 @default.
W3145416092 cites W2063616258 @default.
W3145416092 cites W2069417176 @default.
W3145416092 cites W2076418596 @default.
W3145416092 cites W2080772375 @default.
W3145416092 cites W2102810684 @default.
W3145416092 cites W2104462056 @default.
W3145416092 cites W2108721001 @default.
W3145416092 cites W2109802885 @default.
W3145416092 cites W2110835349 @default.
W3145416092 cites W2120611093 @default.
W3145416092 cites W2124942036 @default.
W3145416092 cites W2125372904 @default.
W3145416092 cites W2125867054 @default.
W3145416092 cites W2127433351 @default.
W3145416092 cites W2129670307 @default.
W3145416092 cites W2132926880 @default.
W3145416092 cites W2137015675 @default.
W3145416092 cites W2147210345 @default.
W3145416092 cites W2148654960 @default.
W3145416092 cites W2149410361 @default.
W3145416092 cites W2152207030 @default.
W3145416092 cites W2152572093 @default.
W3145416092 cites W2152899197 @default.
W3145416092 cites W2159256774 @default.
W3145416092 cites W2161443777 @default.
W3145416092 cites W2171507832 @default.
W3145416092 cites W2295025426 @default.
W3145416092 cites W2318056347 @default.
W3145416092 cites W2477892781 @default.
W3145416092 cites W2569155404 @default.
W3145416092 cites W2589015405 @default.
W3145416092 cites W2608551208 @default.
W3145416092 cites W2737552516 @default.
W3145416092 cites W2748024073 @default.
W3145416092 cites W2756291405 @default.
W3145416092 cites W2773783224 @default.
W3145416092 cites W2783192416 @default.
W3145416092 cites W2787410111 @default.
W3145416092 cites W2789788492 @default.
W3145416092 cites W2799524357 @default.
W3145416092 cites W2891659955 @default.
W3145416092 cites W2891792825 @default.
W3145416092 cites W2911228109 @default.
W3145416092 cites W2926954077 @default.
W3145416092 cites W2947701998 @default.
W3145416092 cites W2951062385 @default.
W3145416092 cites W2970476485 @default.
W3145416092 cites W2999096515 @default.
W3145416092 cites W3002087668 @default.
W3145416092 cites W3004241070 @default.
W3145416092 cites W3010122838 @default.
W3145416092 cites W3022331806 @default.
W3145416092 cites W3033476358 @default.
W3145416092 cites W3042494266 @default.
W3145416092 cites W3044917564 @default.
W3145416092 cites W4205269629 @default.
W3145416092 cites W4244910431 @default.
W3145416092 cites W885045794 @default.
W3145416092 doi "https://doi.org/10.1016/j.syapm.2021.126203" @default.