, 2002, 2006) IrrAt also co-regulates iron homeostasis with RirA

, 2002, 2006). IrrAt also co-regulates iron homeostasis with RirA. In this relationship, IrrAt activates iron uptake genes (irp6A and fhuA), whereas RirA acts as a repressor (Hibbing & Fuqua, 2011). IrrAt also functions as a repressor of the haem synthesis gene hemA (Hibbing & Fuqua, 2011). Furthermore, IrrAt controls the hydrogen peroxide (H2O2) stress response, at least in part, via the negative regulation of the membrane bound ferritin (mbfA) gene (Ruangkiattikul et al., 2012). The HHH motif has been shown to be required for the ability of IrrAt to complement the growth defect and the protoporphyrin IX overproduction

phenotype of an A. tumefaciens irr mutant Selleck CHIR99021 strain (Hibbing & Fuqua, 2011). Here, the relationship between structure and function was further investigated to gain a better understanding of gene regulation by IrrAt. Several IrrAt mutant proteins containing substitutions in amino acids corresponding to the candidate metal- and haem-binding sites were constructed. The repressor activity of the mutant IrrAt proteins on the mbfA gene was investigated using a promoter-lacZ fusion assay. This analysis revealed key amino acid selleck compound residues that are important for the repressor function of IrrAt. Differential ability of the mutant IrrAt proteins to reverse the H2O2-hyper-resistant phenotype of an A. tumefaciens irr mutant strain was also demonstrated. The

bacterial strains are listed in Table 1. Agrobacterium tumefaciens and Escherichia coli DH5α were routinely grown aerobically at 28 °C and 37 °C, respectively, in Luria–Bertani (LB) medium or on LB plates containing 1.5% agar (LA). Medium supplemented with 100 μg mL−1 carbenicillin (Cb), 90 μg mL−1 gentamicin (Gm) and 5 μg mL−1 tetracycline (Tc) was used for A. tumefaciens cell growth. For E. coli, isothipendyl the growth medium was supplemented with 100 μg mL−1 ampicillin (Ap), 30 μg mL−1 Gm and 15 μg mL−1 Tc. Bacteria grown overnight in LB medium were subcultured into fresh LB medium to give an OD600 nm of 0.1. The cells were incubated for another 4 h until the OD600 nm reached 0.5 and were then considered to be

in the exponential growth phase. General molecular techniques were performed using standard procedures (Sambrook et al., 1989). The primers used are listed in Table S1. The cloned DNA region was confirmed by automated DNA sequencing (Pacific Science, Thailand). Plasmids (50–100 ng) were transferred into A. tumefaciens strains by electroporation (Cangelosi et al., 1991). The full-length wild-type irr gene (Atu0153) (Wood et al., 2001) was amplified from A. tumefaciens NTL4 genomic DNA by PCR with primers BT694 and BT695 using Pfu DNA polymerase. The PCR products were cloned into the unique SmaI site of an expression vector pBBR1MCS-4, creating the recombinant plasmid pIRR. The full-length A. tumefaciens wild-type irr gene without the start codon was amplified by PCR using primers BT3118 and BT695.

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