Subsequently, the plasmid pLYJ105

Subsequently, the plasmid pLYJ105 #TH-302 randurls[1|1|,|CHEM1|]# containing a 2-kb upstream fragment of Mgfnr was integrated into the chromosome of ΔMgfnr-down strain by conjugation. After verified by screening PCR for the presence of kanamycin and gentamicin markers, the strain was designated ΔMgfnr-up-down strain. The lox-mediated excision of Mgfnr was initiated by conjugational transformation of pLYJ87 [6]. Precise excision was further confirmed by PCR amplification and sequencing. The

plasmid pLYJ87 was lost by successive cultures in fresh nitrate medium. Finally, this strain was designated ΔMgfnr mutant. For genetic complementation of ΔMgfnr mutant, the Mgfnr gene with its own promoter region was ligated into Acc65I/SacII-digested pBBR1MCS-2, yielding pLYJ110. Subsequently, pLYJ110 was transformed into MSR-1 WT and ΔMgfnr mutant by conjugation. The Ecfnr gene from E. coli K-12 was also hetero-complemented into ΔMgfnr mutant and WT. The PCR fragment of Ecfnr from E. coli was digested with HindIII and XbaI and ligated into pLYJ36 to yield pLYJ153. Heterologous transcomplementation of an E. coli Selleckchem Buparlisib ΔEcfnr mutant First, ΔEcfnr mutant

with kanamycin marker was excised with the E. coli Quick and Easy gene deletion kit (Gene Bridges) and the Bac modification kit (Gene Bridges), as reported in [42]. This unmarked mutant was designated ΔEcfnr mutant. To express MgFnr protein from MSR-1, Mgfnr was ligated into SmaI/XbaI-digested pBBR1MCS-2 to yield pLYJ132. Plasmid pLYJ132 was then transformed into ΔEcfnr mutant. For transcomplementation analysis, strains were anaerobically grown in glucose clonidine minimal medium and lactate minimal medium [30]. Construction

of different Mgfnr variants Substitutions at amino acid positions 27, 34, 98, and 153 were created by site-directed mutagenesis. First, PstI-SpeI digested fragment for each of substitutions was cloned into pOR093 to create pLYJ141 (Mgfnr-N27D), pLYJ142 (Mgfnr-I34L), pLYJ143 (Mgfnr-D153E), and pLYJ144 (Mgfnr-L98H), respectively. The different MgFnr mutants were subsequently obtained by a two-step homologous recombination technique in the same manner as described previously [43]. The Mgfnr variants were confirmed by PCR and sequencing. Analysis of transcriptional gusA fusions To obtain the transcriptional Mgfnr-gusA fusion plasmid, Mgfnr promoter region was cloned into Acc65I/HindIII-digested pLYJ97, designated pLYJ109. To investigate the expression of Mgfnr under different conditions, β-glucuronidase activity was determined at 37°C as described before [5]. Units were recorded as nanomoles of product formed per minute per mg protein. Triplicate assays were measured and the values reported were averaged by using at least two independent experiments. Ferrozine assay To determine the concentration of intracellular iron, cell pellet was washed twice with 1200 μl HEPES buffer (20 mM HEPES, 5 mM EDTA) to remove absorbed iron.

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