meliloti loci. Since homologs to EryA, EryB and EryD were ubiquitous through the data set, it was decided to construct phylogenies based on Maximum Likelihood and Bayesian
analysis using the EryA, EryB and EryD data sets. The topology of the phylogenetic tree using EryA is presented in Figure 2. A tree including branch lengths is included as Additional file 1: Figure S1. V. eiseniae Compound C was also the most distant member with respect to the EryA phylogeny and again used as an outgroup. The phylogenetic trees of EryB and EryD are not shown but were generally consistent with the EryA phylogeny. The species tree, based on RpoD, was included as a mirror tree with the EryA tree to demonstrate possible horizontal gene transfer events (Figure 2). The data show that there is a high degree of correlation between the loci configuration and the EryA phylogenetic tree (Figure 1, 2). We note the similarity of the loci of A. Selleck Panobinostat radiobacter and R. leguminosarum to Brucella species and O. anthropi but not to the more closely related Sinorhizobium species. This suggests that a horizontal gene transfer may have occurred between these organisms. This is in agreement with what has been previously GW4869 reported [20]. It also seems likely that a horizontal gene transfer event may have
occurred between the Brucella and E. fergusonii. This may explain the unique occurrence of the loci’s presence in a member of the gamma-proteobacteria.
Finally, our mirror tree suggests that a horizontal gene transfer of the more complex erythritol locus may have occurred between M. loti and an ancestral species the Sinorhizobium species (Figure 2). Modes of evolution for the Ketotifen polyol utilization loci Comparison of the phylogenetic trees of EryA, EryB and EryD to the arrangement and content of the loci led us to more thoroughly investigate the phylogenies of a number of proteins that stood out as unique within the data set. These phylogenies have led us to postulate modes of evolution that may have occurred in these loci. BLASTP analysis showed a clear distinction between the type of transporter encoded by each of the loci and the remaining genetic content. In general, loci that contained adonitol/L-arabitol type genes contained a transporter homologous to the S. meliloti MptABCDE (Table 2, Figure 1). Loci that contained only erythritol genes contained a transporter homologous to the EryEFG of R. leguminosarum. One exception to this correlation was M. ciceri bv. biserrulae which contained a homologous transporter to EryEFG rather than MptABCDE. This is interesting because M. ciceri groups with the other Mesorhizobia in the EryABD trees. In order to analyze the evolution of these transporters more clearly, phylogenetic trees were constructed of homologs to EryG and homologs to MptA (Figure 3).