RRNA and dnaK relationships of Bradyrhizobium sp. Nodule Bacteria from four Papilionoid legume trees in Costa Rica

Abstract

Enzyme electrophoresis and sequencing of rRNA and dnaK genes revealed high genetic diversity among root nodule bacteria from the Costa Rican trees Andira inermis, Dalbergia retusa, Platymiscium pinnatum (Papilionoideae tribe Dalbergieae) and Lonchocarpus atropurpureus (Papilionoideae tribe Millettieae). A total of 21 distinct multilocus genotypes [ETs (electrophoretic types)] was found among the 36 isolates analyzed, and no ETs were shared in common by isolates from different legume hosts. However, three of the ETs from D. retusa were identical to Bradyrhizobium sp. isolates detected in prior studies of several other legume genera in both Costa Rica and Panama. Nearly full-length 16S rRNA sequences and partial 23S rRNA sequences confirmed that two isolates from D. retusa were highly similar or identical to Bradyrhizobium strains isolated from the legumes Erythrina and Clitoria (Papilionoideae tribe Phaseoleae) in Panama. rRNA sequences for five isolates from L. atropurpureus, P. pinnatum and A. inermis were not closely related to any currently known strains from Central America or elsewhere, but had affinities to the reference strains Bradyrhizobium japonicum USDA 110 (three isolates) or to B. elkanii USDA 76 (two isolates). A phylogenetic tree for 21 Bradyrhizobium strains based on 603 bp of the dnaK gene showed several significant conflicts with the rRNA tree, suggesting that genealogical relationships may have been altered by lateral gene transfer events.