Type 3 fimbrial
expression was also associated with biofilm growth in the majority of these strains. This is the first report describing the distinct grouping of type 3 fimbrial genes into phylogenetic clades at the species level, with strong evidence supporting inter-species lateral gene transfer. We also demonstrate the functional expression of type 3 fimbriae by strains of C. koseri and C. freundii. Phylogenetic analysis with Talazoparib individual and concatenated mrkABCD sequences revealed five distinct clades (A-E) which were strongly supported by long internal branches. The majority of the sequences grouped in clade A, which is represented by the chromosomal mrk gene cluster from the genome sequenced K. pneumoniae strain MGH78578. Clades A and B contained mrk gene clusters from K. pneumoniae (both chromosomal and plasmid origin) and E. find more coli (plasmid origin). Two mrk loci have been fully sequenced from E. coli; in both cases the mrk genes are located on a conjugative plasmid
(pMAS2027 and pOLA52, respectively) and flanked by transposon-like sequences [30, 40]. While the genomic location of the mrk genes in the additional seven E. coli strains identified in this study remains to be determined, the data presented here and in previous studies strongly suggests inter-genera lateral gene transfer of the mrk cluster [17, 28]. In contrast, the composition of clade E is entirely C. koseri sequences,
while clades C and D are represented by a unique sequence from C freundii and K. oxytoca, respectively. The presence of cko_00966 homologs downstream of representative mrk clusters in all 5 clades strongly suggests that the ancestral mrkABCD locus was also Histidine ammonia-lyase encoded next to a cko_00966 homolog and that the clades are largely related by linear descent. Notably, the relationship determined here is not congruent with the known evolutionary relationship of Klebsiella, Citrobacter, and E. coli [41], supporting the occurrence of lateral gene transfer. We propose that clade A represents the K. pneumoniae lineage, with mrk regions laterally transferred to E. coli (e.g. pMAS2027 and pOLA52) and clade E represents the C. koseri lineage. Clades B, C and D, which contain mrk sequences from K. pneumoniae, E. coli, C. freundii and K. oxytoca, are clearly under-represented and additional type 3 fimbrial gene sequences are required to confirm the groupings. Among the four genes used in the phylogenetic analysis, mrkD exhibited the highest inter-group diversity (Table 1). Thus, from the partial sequence comparisons performed in this work, the MrkD adhesin displayed greater sequence variability than the MrkA major subunit. This is inconsistent with other chaperone-usher fimbriae such as type 1 and P fimbriae, where the sequence of the adhesin (e.g. FimH, PapG) is more conserved than the major subunit protein (e.g. FimA, PapA).