Probiotic characteristics are presented by various L. johnsonii strains, including inhibition

of different pathogens in the chick gut, alleviation of diabetes symptoms, reduction of serum cholesterol levels, immunostimulation and adherence to intestinal epithelial cells [24, 26–29]. Due to increased interest in L. johnsonii, various molecular tools have been used for the precise differentiation of L. johnsonii from other members of the Lactobacillus acidophilus cluster, particularly the closely related species Lactobacillus gasseri[30–33]. The fact that different strains display different characteristics highlights the need to develop tools for their accurate discrimination as well. Various methods have been recently used to type L. johnsonii strains, such as pulsed field gel electrophoresis, amplified fragment length

polymorphism, enterobacterial selleck repetitive intergenic consensus PCR and repetitive extragenic palindromic PCR [20,21,33,]. These typing methods differ in their discriminatory power, rapidity, complexity, cost, reliability and reproducibility. In this study we used simple sequence repeats (SSR), also termed variable number tandem repeats (VNTR). SSR loci presents inherently high mutation rate [34], which makes them an appropriate tool for strain typing in many bacterial species [35–37]. Another bacterial typing method based on sequence variations is multiple locus sequence typing (MLST) [38], Teicoplanin mainly of housekeeping genes, providing an indication of relatively see more distant evolutionary processes [39]. Similarly, conserved hypothetical genes can provide an additional source of sequence variation [40]. This cluster of genes with unknown function is predicted to be present in the genomes of all members of a particular species. In this study L. johnsonii was identified and isolated from a selected narrow spectrum of the fecal LAB population originated from various animal hosts. The genetic relationships among L. johnsonii strains were inferred based on variation at selected sets of SSR loci and MLST of

conserved hypothetical genes. Our findings suggest specificity of L. johnsonii strains to their hosts. Results Isolation of L. johnsonii from various animal hosts and Adavosertib characterization of their selected fecal LAB populations A large survey for L. johnsonii isolation was performed, where 104 fecal samples originating in six host taxonomic classes were tested. The isolation procedure of L. johnsonii relied on few methods: identifying L. johnsonii within a narrow spectrum of fecal LAB populations using terminal restriction fragment length polymorphism (tRFLP) analysis and isolation of suspected L. johnsonii colonies based on their morphology followed by species-specific PCR amplification of 23 S rDNA and 16 S rDNA sequencing.