4a and b). The TSP of hutHUI is located 70 nucleotides upstream of the translational start of hutH. For the divergent genes hutG and hutR, TSPs were mapped 24 bp upstream of the start codon of hutG, whereas the TSP of hutR was identical to the first guanine residue of the GTG start codon, indicating the presence of a leaderless transcript (Pátek
et al., 2003). The TSPs were used to deduce the Selleck GSI-IX associated promoter regions according to corynebacterial consensus sequences for −10 and −35 regions (Pátek et al., 2003). The transcription of the hut genes is most likely driven by the housekeeping sigma factor SigA. The predicted −10 regions of the hut promoters (TAttgT, TAggaT, TAgggT) contain the typical leading TA and trailing T residues, whereas the predicted −35 regions (TgGtgA, gTGcCA, ccGcgc) showed varying matches to the corynebacterial consensus sequence. To demonstrate the direct interaction of HutR with the upstream regions of the
hut genes, DNA band FK506 in vivo shift assays were performed with Cy3-labeled PCR fragments. For this purpose, the HutR protein was tagged with streptavidin, expressed in E. coli DH5αMCR, and purified by means of Strep-Tactin sepharose-packed columns (data not shown). First, the upstream region of hutH and the intergenic region of hutR-hutG were amplified by PCR (Fig. 4a and b). Retardation of the respective DNA fragments 1 and 4 was observed, as the HutR protein apparently bound to the DNA in vitro (Fig. 4c). A DNA sequence containing a LexA binding site of C. glutamicum (Jochmann et al., 2009) served as a negative control. Subsequently, the DNA fragments were shortened to yield Fossariinae smaller candidate HutR binding regions upstream of hutH (fragments 2 and 3) and in the hutR-hutG gene region (fragments 5 – 7). The results of the respective DNA band shift assays revealed a candidate HutR binding region of 41 bp upstream of
the hutH coding region (Fig. 4a) and a 34-bp region between hutR and hutG (Fig. 4b). In both cases, the deduced HutR binding region is located upstream of the −35 promoter region, suggesting that the HutR regulator might function as an activator (Madan Babu & Teichmann, 2003). To identify the DNA-binding motif of HutR, both DNA regions were aligned, thereby revealing the presence of a common 14-bp motif with the consensus sequence TCTGwwATwCCAGA in front of hutH and in the hutR-hutG gene region (Fig. 5c). This DNA motif contains the 4-bp terminal palindrome TCTG/CAGA. To elucidate whether the 14-bp DNA motif is required for the specific binding of the HutR protein, fluorescein-labeled 40-mers carrying this sequence in the center were used for DNA band shift assays (Fig. 5a and b). Furthermore, mutated versions of the 14-bp motifs were generated by introducing transitions in the four palindromic bases. In these cases, the purified HutR protein failed to shift the mutated 40-mers (Fig. 5a and b).
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