Studies on the large subunit rRNA genes and their flanking regions of leuconostocs

Abstract

The 16S-23S (spacer-1) and 23S-5S (spacer-2) rRNA intergenic spacer regions of Leuconostoc lactis, Leuconostoc mesenteroides, Leuconostoc mesenteroides subsp. dextranicum, and Leuconostoc mesenteroides subsp. cremoris were amplified by polymerase chain reactions and sequenced. The 23S rRNA genes of Leuconostoc lactis, Leuconostoc mesenteroides, and Leuconostoc mesenteroides subsp. dextranicum were also sequenced. The RNase III-like and RNase E processing sites, as well as putative antitermination signals, were identified within the spacer regions. A single tRNA(Ala) gene without the 3'-terminal CCA sequence was found in spacer-1 regions. Secondary structure models are proposed showing interactions between the two spacer regions of leuconostocs. For all strains studied, spacer-1 and spacer-2 were highly conserved and therefore could not be directly used for strain typing. Sequence information on 23S rRNA genes from Leuconostoc species allowed the determination of regions that can be used as targets for diagnostic probes and amplification primers. Secondary structures of variable helical elements of leuconostocs 23S rRNA were constructed and their primary structures were compared with those of several Gram-positive bacteria with low G+C contents. Comparative analysis revealed that restriction analysis of 23S rRNA variable regions appeared to be sufficient for the search for species-specific signatures. Our experimental observations revealed that one form of the rRNA operons was present in leuconostocs. We have also demonstrated the direct linkage between the three species of rRNA genes, which are organized as follows: 5'-16S rRNA-spacer-1-tRNA(Ala)-23S rRNA-spacer-2-5S rRNA-3'.