3 0.028 14.22 ± 2.22c Proteins expressed higher in Δ relA Δ spoT strain     004 STM3359 mdh 2.0 0.021 ND 006 STM3069 pgk 1.4 0.037 ND 008 STM2681 grpE 1.5 0.018 ND 068 STM3342 sspA 1.7 0.014 EC 081 STM2952 eno 1.7 0.014 ND 096

STM1700 fabI 1.8 0.041 click here ND 098 STM0232 accA 2.2 0.017 ND 101 STM3446 fusA 3.7 0.022 ND 109 STM4055 sodA 2.0 0.044 EC 115 STM3415 rpoA 1.5 0.043 EC 116 STM4184 aceA 1.6 0.007 ND 118 STM0737 sucB 1.7 0.006 ND 119 STM2660 clpB 3.7 0.035 ND 135 STM0735 sdhB 2.1 0.002 ND 142 STM3063 rpiA 1.8 0.022 ND 145 STM4190 pepE 1.5 0.003 ND 155 STM0734 sdhA 2.9 0.039 ND 186 STM3282 pnp 3.2 0.013 ND 187 STM3446 fusA 2.3 0.031 ND 210 STM1305 astD 1.8 0.007 EC 222 STM3502 ompR 1.7 0.025 ND 227 STM2378 fabB 1.6 0.035 ND 231

STM1746 oppA 1.8 0.012 ND aND, not determined. bEC, already identified Tanespimycin datasheet as a ppGpp-regulated protein in E. coli by Traxler et al. [30]. cmRNA level was Selleck STI571 significantly different between wild type and the ΔrelAΔspoT mutant. Of these proteins, six genes (treA, ugpB, ynhG, yliB, ugpB, degQ) had previously been identified as ppGpp-regulated genes in E. coli at the transcriptional level [30]. In S. Typhimurium, it has been shown that ppGpp controls the expression of known virulence-associated genes, including sipC, fliY, sopB, and sodC1, in response to growth conditions relevant to host infection [14]. Thus, to confirm the results from the comparative proteomic analysis, mRNA levels of the remaining 13 genes were assessed by qRT-PCR. As a result, mRNA expression levels of eight genes (stm3169, cpdB, tolB, ydgH, oppA, yajQ, yhbN, ytfJ) were significantly higher in SH100 than in TM157 under stringent conditions (Table 1). Identification of novel virulence-associated factors regulated by ppGpp Among 13 genes newly identified as ppGpp regulated, 12 genes were present in non-pathogenic E. coli K-12 strain. Therefore, to examine whether ppGpp-regulated putative or hypothetical proteins could contribute to the virulence of S. Typhimurium, we chose Salmonella-specific protein, STM3169, which is present in S. OSBPL9 Typhimurium, but is absent in the E. coli K-12 strain (Figure 4[27, 31]). To determine the roles

of STM3169 in virulence, a deletion mutant was constructed in the S. Typhimurium wild-type SH100 strain, and its virulence was assessed by a mouse mixed infection using a competitive index analysis. As shown in Figure 5A, mouse mixed infections showed that disruption of the stm3169 gene conferred a defect in virulence in mice, and that successful complementation was achieved for TH973 (Δstm3169::kan) by expression of intact STM3169 from a plasmid. These findings provide the first evidence that STM3169 functions as a virulence factor of S. Typhimurium in a mouse infection model. Figure 4 The S . Typhimurium-specific protein STM3169 is regulated by ppGpp in the stringent response. (A) Comparison of the STM3169 protein expression in the wild-type SH100 and ΔrelAΔspoT strain (TM157).