Figure 4 Chromate resistance and reduction of B cereus SJ1 Chro

Figure 4 Chromate resistance and reduction of B. cereus SJ1. Chromate reduction (A) and resistance (B) analysis of B. cereus SJ1 uninduced (◊) and induced with (■) 1

mM K2CrO4 for 8 h before bacterial inoculation in LB medium (pH 7.0). B. cereus SJ1 was incubated for 48 h before growth was measured for Cr resistance determination. (▲), amended with 1 mM K2CrO4 without bacterial inoculation as a control. Error bars represent standard deviation of triplicate samples. Figure 5 RT-PCR analysis of putative chromate reduction genes nitR and azoR. M, 1 kb DNA ladder. r, negative control for RT, obtained using total RNA (after DNase I treatment) as the template for PCR learn more amplification, to verify that no genomic contamination was present in the RNA extract; c, RT-PCR product using the first strand cDNA as the Omipalisib template; g, PCR positive control obtained using genomic DNA from B. cereus SJ1 as the template. Compound C 0, 1 and 3 after r and c represent samples uninduced and induced by 0.3 mM K2CrO4 for 1 h and 3 h, respectively. Lanes 1-7, nitR1 (locus_tag: BCSJ1_00500, 592 bp); Lanes 8-14, azoR (locus_tag: BCSJ1_06081, 413 bp); Lanes 15-21, nitR2 (locus_tag: BCSJ1_14230, 480 bp); Lanes

22-28, nitR3 (locus_tag: BCSJ1_17540, 546 bp); Lanes 29-35, nitR4 (locus_tag: BCSJ1_02410, 477 bp); Lanes 36-38, RT-PCR of 16 S rRNA genes. The arrow indicates a non-specific band. Expression of chrA1 is inducible by chromate Using the procedure described in Methods, we found that the uninduced and induced cells grew to similar cell densities in medium containing 5 mM Cr(VI) as determined spectrophotometrically at OD600. However, the induced cells grew to higher cell densities than the uninduced cells at higher Cr(VI) concentrations in the growth medium. The MIC of induced B. cereus SJ1 to K2CrO4 was 30 mM whereas that of the uninduced strain was 20 mM (Figure 4B). Induction of the different chrA genes was also evaluated by RT-PCR using RNA isolated from cultures grown in the presence and absence of 0.3 mM Cr(VI) from 0 h to 3 h (Figure

6A). A chrA1-specific fragment was clearly visible when Cr(VI) was added that was absent when no Cr(VI) was added (Lane 4 vs 5 and 6), DOK2 indicating expression of chrA1 was induced by the addition of Cr(VI). In contrast, RT-PCR of the other two chrA genes, chrA2 and chrA3, showed that both were expressed constitutively. No products were found using total RNA as the template for PCR amplification, thus indicating the absence of DNA contamination in the total RNA preparations. Figure 6 RT-PCR analysis of chrA, chrI induction and chrI-chrA 1 co-transcription. The M, r, c, g were identical to these of Figure 5. (A), RT-PCR analysis of expression of chrA’s. Lanes 1-7, chromate resistance gene chrA1 (locus_tag: BCSJ1_04594, 946 bp); Lanes 8-14, chrA2 (locus_tag: BCSJ1_18833, 491 bp); Lanes 15-21, chrA3 (locus_tag: BCSJ1_18828, 354 bp).

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