3-Methyladenine solubility dmso pneumoniae DNA. Thus, to identify the specific GI colonisation promoting

genes, a library of 96 subclones, containing 4–12 kb C3091 DNA fragments inserted into cloning vector pACYC184, were constructed from each of the five fosmid clones. The subclones within each library were then pooled and fed to a set of three mice in separate experiments. Following 5–7 days of infection, plasmids from stool samples were isolated and submitted to SalI digestion profiling. While we were unable to obtain clonal selection from the subclone library derived from fosmid clone 5, we successfully observed selection of a single clone in each of the four other experiments (data not shown). The colonisation promoting IGF-1R inhibitor abilities of the C3091 DNA fragments in these four subclones were verified in the mouse model in pair-wise growth-competition experiments against EPI100 carrying the empty pACYC184 vector. Each of the four selected subclones retained the GI colonisation advantage of the respective fosmid clones from which they were derived (data not shown), thus once again confirming the acquisition of GI colonisation promoting genes. We

next sequenced the C3091 DNA fragments of the four selected subclones. Based on these sequences, clones containing only a single C3091 gene or gene cluster were constructed by PCR amplification using specific primers and insertion into pACYC184. These well-defined clones were tested in the mouse model in competition experiments against EPI100 carrying the empty PACYC184 vector (Figure 4). This successfully led to identification EGFR inhibitor of the genes from each of the fosmid clones encoding

colonisation promoting Klebsiella proteins. These were: the RecA recombinase; UDP-galactose-4-epimerase (GalE) and galactose-1-phosphate uridylyltransferase (GalT) of the galactose operon; the ArcA response regulator; and a cluster of two hypothetical proteins homologous to KPN_01507 and KPN_01508 in the sequenced genome of K. pneumoniae strain MGH78578 and encoding proteins of unknown function. Sequence analysis showed that all six proteins share 99-100% identity with their corresponding from homologues in MGH78578. EPI100 carrying pACYC184 with either of these genes or gene clusters outcompeted the corresponding vector control strain within 3 days and persisted in the mouse intestines throughout the experiments (Figure 4). Figure 4 K. pneumoniae C3091-derived RecA, GalET, ArcA and putative proteins KPN_01507/01508 confer enhanced GI colonisation to EPI100. Sets of mice were fed with equal amounts of EPI100 carrying the empty pACYC184 vector and EPI100 carrying pACYC184-recA, -galET, -arcA, or –kpn_01507/01508, respectively. In all four experiments, the bacterial counts of the control strain were below the detection limit of 50 CFU/g faeces (dashed horizontal lines) one-to-three days post-feeding. The data in Figure 4 A-C are expressed as the mean ± SEM for three infected mice.