PMID:9795253
| Citation |
Dahm, C, Müller, R, Schulte, G, Schmidt, K and Leistner, E (1998) The role of isochorismate hydroxymutase genes entC and menF in enterobactin and menaquinone biosynthesis in Escherichia coli. Biochim. Biophys. Acta 1425:377-86 |
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| Abstract |
Klebsiella pneumoniae 62-1, a triple mutant impaired in aromatic amino acid biosynthesis (Phe-, Tyr-, Trp-), excretes chorismic acid into the culture broth. When transformed with plasmids harbouring Escherichia coli genes entC or menF the mutant excretes a mixture of both chorismic and isochorismic acid indicating that not only entC but also menF encodes an isochorismate hydroxymutase (isochorismate synthase, EC 5.4.99.6) enzyme. These enzymes catalyze the first step in enterobactin or menaquinone biosynthesis, respectively. Although both gene products (EntC and MenF) catalyze the same reaction, they play distinct roles in the biosynthesis of menaquinone (MK8) and enterobactin. An E. coli mutant (PBB7) with an intact menF but a disrupted entC produced menaquinone (MK8) but no enterobactin, whereas a mutant (PBB9) with an intact entC but a disrupted menF produced enterobactin and only a trace of menaquinone (MK8). When both menF and entC were disrupted (mutant PBB8) neither menaquinone (MK8) nor enterobactin was detectable. Our previous assumption that entC is responsible for both menaquinone and enterobactin biosynthesis is inconsistent with these mutant studies and has to be revised. The presence in the promoter region of menF of a putative cAMP receptor protein binding site indicates that menF is regulated differently from entC. The menF gene was overexpressed as a fusion gene and its product (6xHis-tagged MenF) isolated. The enzyme catalyzed the formation of isochorismic from chorismic acid and as opposed to a previous publication also the reverse reaction. The enzyme was characterized and its kinetic data determined. |
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| Keywords |
Chorismic Acid/metabolism; Cyclohexenes; Enterobactin/metabolism; Escherichia coli/enzymology; Escherichia coli/genetics; Gene Expression; Intramolecular Transferases/genetics; Intramolecular Transferases/metabolism; Klebsiella pneumoniae/genetics; Mutation; Plasmids; Vitamin K/biosynthesis |
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