We also conduced three independent biological replicates of pS88 after growth in LB Broth, named experiments 1, 2 and 3, to compare the Ct values which each other. As expected,
most of the fold changes were close to 1, and 98% of values were between 0.25 and 4 (Figure 1B). Therefore, we considered that an ORF was upregulated or downregulated if the change in expression was smaller or larger than 0.25-fold and 4-fold, respectively, with CRT0066101 p values ≤0.05. These thresholds are in line with those selected by Mobley et al.[16]. Figure 1 Linearity and reproducibility of transcriptional analysis. (A) Quantitative RT-PCR of 5 ORFs using different RNA concentrations. (B) Analysis of fold changes in RNA transcript abundance by the 2-ΔΔCT method across 3 biological buy Z-DEVD-FMK replicates named experiments 1, 2 and 3 after growth in LB broth (experiment 1 vs 2: dots, experiment 1 vs 3: squares, experiment 2 vs 3: triangles). The fold changes fall within the range 0.25-4.00 in 98% of cases. Global analysis of the pS88 transcriptome ex vivo and the pAMM transcriptome in vivo Table 1 shows the transcriptome patterns for pS88 grown in iron-depleted LB, in human urine and serum, as well as that of pAMM (recovered from human urine in vivo). A transcript was detected
for all 88 ORFs tested, except for ORF 23. Overall, 18 ORFs (19%), 10 of which corresponded to 5 operons, were upregulated in at least one of the three ex
vivo conditions. The only down-regulated genes were traA in urine, and ydfA and ORF 132 in iron-depleted LB broth. The transcriptome pattern of pAMM largely matched the ex vivo patterns, indicating that growth in human urine ex vivo was a relevant model. Interestingly, the fold changes observed in vivo were far higher than those Oxymatrine observed ex vivo and in vitro. Table 1 Transcriptional expression of pS88 and pAMM ORFs in different growth conditions compared to LB broth Name Gene Function LB with iron chelatorapS88 p b Human serumex vivo apS88 p b Human urineex vivo apS88 p b Human urinein vivo apAMM pS88001 int Selleckchem mTOR inhibitor Putative site-specific recombinase 0.85 0.775 0.59 0.427 0.73 0.505 0.84 pS88002 repA RepFIB replication protein RepA 0.41 0.305 0.97 0.976 0.89 0.889 3.56 pS88003 Conserved hypothetical protein 1.67 0.496 1.26 0.758 3.09 0.159 7.26 pS88004 Conserved hypothetical protein 0.93 0.883 0.58 0.266 0.60 0.459 2.52 pS88006 Putative fragment of ImpB UV protection protein 0.48 0.578 0.77 0.550 1.51 0.367 1.17 pS88009 iutA Ferric aerobactin receptor precursor IutA 4.12 0.007 4.23 0.006 4.01 0.048 9.02 pS88013 iucA Aerobactin siderophore biosynthesis protein IucA 45.25 0.005 15.85 0.023 18.38 0.026 168.12 pS88014 shiF Putative membrane transport protein ShiF 7.66 0.006 14.03 0.005 14.19 0.004 17.71 pS88015 Putative membrane protein; CrcB-like protein 2.40 0.105 0.82 0.807 4.19 0.051 6.