Because of this inhibitory effect, the decrease in mitochondrial ATP production appears to be compensated for by an increase in the activities of pyruvate kinase and lactate dehydrogenase (Leblond-Larouche Doxorubicin order et al., 1977). Moreover, an analysis of plain L-15M and MEM revealed that MEM does not contain sodium pyruvate, pyridoxine-HCl, cysteine, KH2PO4, MgSO4.7H2O, or MgCl2.6H2O. In this study, we
showed that R. felis can also grow and multiply in cell hosts cultivated in L-15M without TPB (Fig. S3b,c). According to our analysis, R. felis seems better equipped than other Rickettsia species to use the pyrimidine pathway (see KEGG database, http://www.genome.jp/kegg/pathway.html), which may explain our findings. Another hypothesis is that TPB Selleck Pirfenidone may enhance the survival of mammalian cells at lower temperatures and thus the replication of R. felis. Finally, the influence of nutrients may explain the inconsistencies between studies that have reported the culture of R. felis in mammalian cells. We thank Guy Vestris for his comments on culturing techniques. “
“Enterohemorrhagic Escherichia coli (EHEC), a food- and waterborne pathogen, causes diarrhea, hemorrhagic colitis, and life-threatening HUS. MLVA is a newly developed and widely accepted genotyping tool. An MLVA system for EHEC O157 involving nine genomic loci has
already been established. However, the present study revealed that the above-mentioned MLVA system cannot analyze EHEC O26 and O111 isolates—the second and third most dominant EHEC serogroups in Japan, respectively. Therefore, with several modifications to the O157 system and the use of nine additional loci, we developed an expanded MLVA system applicable to EHEC O26, O111, and O157. Our MLVA system had a relatively high resolution power for each of the three serogroups: Simpson’s index of diversity
was 0.991 (95% CI = 0.989–0.993), 0.988 (95% CI, 0.986–0.990), and 0.986 (95% CI, 0.979–0.993) for O26, O111, and O157, respectively. This system also detected outbreak-related isolates; the isolates collected during each of the 12 O26 and O111 outbreaks formed unique clusters, and most of the repeat copy numbers among the isolates collected during the same outbreak exhibited no or single-locus variations. These results were comparable to those of cluster analyses based on PFGE profiles. Therefore, our system can new complement PFGE analysis—the current golden method. Because EHEC strains of three major serogroups can be rapidly analyzed on a single platform with our expanded MLVA system, this system could be widely used in molecular epidemiological studies of EHEC infections. Enterohemorrhagic Escherichia coli (EHEC), also called STEC, is a food- and waterborne pathogen that causes diarrhea, HC, and life-threatening HUS (1). Shiga toxin is the main virulence factor of EHEC and exerts cytotoxic effects on host cells. Other virulence factors such as the LEE-encoded type III secretion system also contribute to the pathogenicity of EHEC (2).