Evidence from Internally Transcribed Spacer Sequence Analysis of Soybean Strains that Extant Bradyrhizobium spp. Are Likely the Products of Reticulate Evolutionary Events

Abstract

ABSTRACT The internally transcribed spacer (ITS) sequences of several members within each of 17 soybean bradyrhizobial serogroups were determined to establish whether the regions within all members of each serogroup were identical. The rationale was to provide a sequence-based alternative to serology. The objective also was to link the extensive older literature on soybean symbiosis based on serology with ITS sequence data for more recent isolates from both soybean and other legumes nodulated by rhizobia within the genus Bradyrhizobium . With the exception of serogroup 31 and 110 strains, sequence identity was established within each serogroup. Variation ranged from 0 to 23 nucleotides among serogroup 31 strains, and the regions in the type strains USDA 31 (serogroup 31) and USDA 130 (serogroup 130) were identical. Sequence identity was established among most strains within serogroup 110. The exceptions were USDA 452 and USDA 456, which had ITS sequences that were identical with those of the serotype 124 strain, USDA 124. Perhaps this would imply that USDA 452, USDA 456, and serogroup 31 strains are members of rhizobial lineages resulting from genetic exchange and homologous recombination events. This conclusion would be supported by the construction of a phylogenetic network from the ITS sequence alignment implying that the genomes of extant members of the genus Bradyrhizobium are likely the products of reticulate evolutionary events. A pairwise homoplasy index (phi or Φ w ) test was used to obtain further evidence for recombination. The ITS sequences of USDA 110 and USDA 124 were more divergent (53 nucleotides) than this region between the type strain Bradyrhizobium japonicum USDA 6 T and the proposed species Bradyrhizobium yuanmingense (28 nucleotides) and Bradyrhizobium liaoningense (48 nucleotides). Therefore, support for assigning discrete species boundaries among these three proposed species appears limited, considering the evidence for recombination, the narrow divergence of the ITS sequence, and their relative placement on the phylogenetic network.