Publications

• Enterobactin biosynthesis in Escherichia coli: isochorismate lyase (EntB) is a bifunctional enzyme that is phosphopantetheinylated by EntD and then acylated by EntE using ATP and 2,3-dihydroxybenzoate.

  Gehring A.M., Bradley K.A., Walsh C.T.

  In Escherichia coli, the siderophore molecule enterobactin is synthesized in response to iron deprivation by formation of an amide bond between 2,3-dihydroxybenzoate (2,3-DHB) and l-serine and formation of ester linkages between three such N-acylated serine residues. We show that EntB, previously ... >> More

  In Escherichia coli, the siderophore molecule enterobactin is synthesized in response to iron deprivation by formation of an amide bond between 2,3-dihydroxybenzoate (2,3-DHB) and l-serine and formation of ester linkages between three such N-acylated serine residues. We show that EntB, previously described as the isochorismate lyase required for production of 2,3-DHB, is a bifunctional protein that also serves as an aryl carrier protein (ArCP) with a role in enterobactin assembly. EntB is phosphopantetheinylated near the C terminus in a reaction catalyzed by EntD with a kcat of 5 min-1 and a Km for apo-EntB of 6.5 microM. This holo-EntB is then acylated with 2,3-DHB in a reaction catalyzed by EntE, previously described as the 2,3-DHB-AMP ligase, with a kcat of 100 min-1 and a Km of <<1 microM for holo-EntB. The N-terminal 187 amino acids of EntB (isochorismate lyase domain) are not needed for reaction of EntB with either EntD or EntE as demonstrated by the equivalent catalytic efficiencies of the full-length EntB (residues 1-285) and the C-terminal EntB ArCP domain (residues 188-285) as substrates for both EntD and EntE. << Less

  Biochemistry 36:8495-8503(1997) [PubMed] [EuropePMC]

  This publication is cited by 6 other entries.

• Vibriobactin biosynthesis in Vibrio cholerae: VibH is an amide synthase homologous to nonribosomal peptide synthetase condensation domains.

  Keating T.A., Marshall C.G., Walsh C.T.

  The Vibrio cholerae siderophore vibriobactin is biosynthesized from three molecules of 2,3-dihydroxybenzoate (DHB), two molecules of L-threonine, and one of norspermidine. Of the four genes positively implicated in vibriobactin biosynthesis, we have here expressed, purified, and assayed the produc ... >> More

  The Vibrio cholerae siderophore vibriobactin is biosynthesized from three molecules of 2,3-dihydroxybenzoate (DHB), two molecules of L-threonine, and one of norspermidine. Of the four genes positively implicated in vibriobactin biosynthesis, we have here expressed, purified, and assayed the products of three: vibE, vibB, and vibH. All three are homologous to nonribosomal peptide synthetase (NRPS) domains: VibE is a 2,3-dihydroxybenzoate-adenosyl monophosphate ligase, VibB is a bifunctional isochorismate lyase-aryl carrier protein (ArCP), and VibH is a novel amide synthase that represents a free-standing condensation (C) domain. VibE and VibB are homologous to EntE and EntB from Escherichia coli enterobactin synthetase; VibE activates DHB as the acyl adenylate and then transfers it to the free thiol of the phosphopantetheine arm of VibB's ArCP domain. VibH then condenses this DHB thioester (the donor) with the small molecule norspermidine (the acceptor), forming N(1)-(2, 3-dihydroxybenzoyl)norspermidine (DHB-NSPD) with a k(cat) of 600 min(-1) and a K(m) for acyl-VibB of 0.88 microM and for norspermidine of 1.5 mM. Exclusive monoacylation of a primary amine of norspermidine was observed. VibH also tolerates DHB-acylated EntB and 1,7-diaminoheptane, octylamine, and hexylamine as substrates, albeit at lowered catalytic efficiencies. DHB-NSPD possesses one of three acylations required for mature vibriobactin, and its formation confirms VibH's role in vibriobactin biosynthesis. VibH is a unique NRPS condensation domain that acts upon an upstream carrier-protein-bound donor and a downstream amine, turning over a soluble amide product, in contrast to an archetypal NRPS-embedded C domain that condenses two carrier protein thioesters. << Less

  Biochemistry 39:15513-15521(2000) [PubMed] [EuropePMC]

  This publication is cited by 1 other entry.

• Enzymatic adenylation of 2,3-dihydroxybenzoate is enhanced by a protein-protein interaction between Escherichia coli 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase (EntA) and 2,3-dihydroxybenzoate-AMP ligase (EntE).

  Khalil S., Pawelek P.D.

  The Escherichia coli siderophore enterobactin is synthesized in response to iron starvation. 2,3-Dihydro-2,3-dihydroxybenzoate dehydrogenase (EntA) produces 2,3-dihydroxybenzoate (DHB), a biosynthetic intermediate. 2,3-Dihydroxybenzoate-AMP ligase (EntE) adenylates DHB, activating it for attachmen ... >> More

  The Escherichia coli siderophore enterobactin is synthesized in response to iron starvation. 2,3-Dihydro-2,3-dihydroxybenzoate dehydrogenase (EntA) produces 2,3-dihydroxybenzoate (DHB), a biosynthetic intermediate. 2,3-Dihydroxybenzoate-AMP ligase (EntE) adenylates DHB, activating it for attachment to the NRPS substrate holo-EntB. Using analytical ultracentrifugation, we found that EntA undergoes concentration-dependent dimer-tetramer self-association (K(D) = 12.3 μM). We further found that EntA can form a specific complex with EntE. Pull-down assays revealed that recombinant EntA bait pulled down EntE from E. coli lysates, whereas recombinant EntE bait could pull down EntA. Addition of the SMCC cross-linker to a mixture of EntA and EntE resulted in a cross-linked product with a molecular mass of >250 kDa, suggesting a complex stoichiometry of one EntA tetramer and four EntE monomers. The effect of EntA on EntE activity was also examined. Addition of a 4-fold excess of EntA to an EntE assay mixture resulted in a 6-fold stimulation of EntE activity. EntA was also found to perturb the FRET signal between EntE donor residues and EntE-bound DHB. By following the EntA-dependent decrease in the magnitude of the EntE-DHB FRET signal, EntA-EntE binding behavior was found to be sigmoidal, suggesting the presence of both low- and high-affinity binding sites. The EntA-EntE interaction was also directly measured by isothermal titration calorimetry at 10 °C. The resulting binding isotherm fit well to a model describing two binding sites, supporting our AUC and fluorescence data. Taken together, our data show that tetrameric EntA optimally interacts with EntE, resulting in an enhancement of EntE activity. << Less

  Biochemistry 50:533-545(2011) [PubMed] [EuropePMC]

• Cloning of a Vibrio cholerae vibriobactin gene cluster: identification of genes required for early steps in siderophore biosynthesis.

  Wyckoff E.E., Stoebner J.A., Reed K.E., Payne S.M.

  Vibrio cholerae secretes the catechol siderophore vibriobactin in response to iron limitation. Vibriobactin is structurally similar to enterobactin, the siderophore produced by Escherichia coli, and both organisms produce 2,3-dihydroxybenzoic acid (DHBA) as an intermediate in siderophore biosynthe ... >> More

  Vibrio cholerae secretes the catechol siderophore vibriobactin in response to iron limitation. Vibriobactin is structurally similar to enterobactin, the siderophore produced by Escherichia coli, and both organisms produce 2,3-dihydroxybenzoic acid (DHBA) as an intermediate in siderophore biosynthesis. To isolate and characterize V. cholerae genes involved in vibriobactin biosynthesis, we constructed a genomic cosmid bank of V. cholerae DNA and isolated clones that complemented mutations in E. coli enterobactin biosynthesis genes. V. cholerae homologs of entA, entB, entC, entD, and entE were identified on overlapping cosmid clones. Our data indicate that the vibriobactin genes are clustered, like the E. coli enterobactin genes, but the organization of the genes within these clusters is different. In this paper, we present the organization and sequences of genes involved in the synthesis and activation of DHBA. In addition, a V. cholerae strain with a chromosomal mutation in vibA was constructed by marker exchange. This strain was unable to produce vibriobactin or DHBA, confirming that in V. cholerae VibA catalyzes an early step in vibriobactin biosynthesis. << Less

  J. Bacteriol. 179:7055-7062(1997) [PubMed] [EuropePMC]

• Kinetic and inhibition studies of dihydroxybenzoate-AMP ligase from Escherichia coli.

  Sikora A.L., Wilson D.J., Aldrich C.C., Blanchard J.S.

  Inhibition of siderophore biosynthetic pathways in pathogenic bacteria represents a promising strategy for antibacterial drug development. Escherichia coli synthesize and secrete the small molecule iron chelator siderophore, enterobactin, in response to intracellular iron depletion. Here we descri ... >> More

  Inhibition of siderophore biosynthetic pathways in pathogenic bacteria represents a promising strategy for antibacterial drug development. Escherichia coli synthesize and secrete the small molecule iron chelator siderophore, enterobactin, in response to intracellular iron depletion. Here we describe a detailed kinetic analysis of EntE, one of six enzymes in the enterobactin synthetase gene cluster. EntE catalyzes the ATP-dependent condensation of 2,3-dihydroxybenzoic acid (DHB) and phosphopantetheinylated EntB (holo-EntB) to form covalently arylated EntB, a product that is vital for the final assembly of enterobactin. Initial velocity studies show that EntE proceeds via a bi-uni-uni-bi ping-pong kinetic mechanism with a k(cat) equal to 2.8 s(-1) and K(m) values of 2.5, 430, and 2.9 microM for DHB, ATP, and holo-EntB-ArCP, respectively. Inhibition and direct binding experiments suggest that, during the first half-reaction (adenylation), DHB binds first to the free enzyme, followed by ATP and the release of pyrophosphate to form the adenylate intermediate. During the second half-reaction (ligation), phosphopantetheinylated EntB binds to the enzyme followed by the release of products, AMP and arylated EntB. Two hydrolytically stable adenylate analogues, 5'-O-[N-(salicyl)sulfamoyl]adenosine (Sal-AMS) and 5'-O-[N-(2,3-dihydroxybenzoyl)sulfamoyl]adenosine (DHB-AMS), are shown to act as slow-onset tight-binding inhibitors of the enzyme with (app)K(i) values of 0.9 and 3.8 nM, respectively. Direct binding experiments, via isothermal titration calorimetry, reveal low picomolar dissociation constants for both analogues with respect to EntE. The tight binding of Sal-AMS and DHB-AMS to EntE suggests that these compounds may be developed further as effective antibiotics targeted to this enzyme. << Less

  Biochemistry 49:3648-3657(2010) [PubMed] [EuropePMC]

  This publication is cited by 2 other entries.

• The EntF and EntE adenylation domains of Escherichia coli enterobactin synthetase: sequestration and selectivity in acyl-AMP transfers to thiolation domain cosubstrates.

  Ehmann D.E., Shaw-Reid C.A., Losey H.C., Walsh C.T.

  Enterobactin, the tris-(N-(2,3-dihydroxybenzoyl)serine) trilactone siderophore of Escherichia coli, is synthesized by a three-protein (EntE, B, F) six-module nonribosomal peptide synthetase (NRPS). In this work, the 142-kDa four-domain protein EntF was bisected into two double-domain fragments: a ... >> More

  Enterobactin, the tris-(N-(2,3-dihydroxybenzoyl)serine) trilactone siderophore of Escherichia coli, is synthesized by a three-protein (EntE, B, F) six-module nonribosomal peptide synthetase (NRPS). In this work, the 142-kDa four-domain protein EntF was bisected into two double-domain fragments: a 108-kDa condensation and adenylation construct, EntF C-A, and a 37-kDa peptidyl carrier protein (PCP) and thioesterase protein, EntF PCP-TE. The adenylation domain activity of EntF C-A formed seryl-AMP but lost the ability to transfer the seryl moiety to the cognate EntF PCP-TE in trans. Seryl transfer to heterologous PCP protein fragments, the SrfB1 PCP from surfactin synthetase and Ybt PCP1 from yersiniabactin synthetase, was observed at rates of 0.5 min(-1) and 0.01 min(-1), respectively. The possibility that these slow acylation rates reflected dissociation of acyl/aminoacyl-AMP followed by adventitious thiolation by the heterologous PCPs in solution was addressed by measuring catalytic turnover of pyrophosphate (PP(i)) released from the adenylation domain. The holo SrfB1 PCP protein as well as Ybt PCP1 did not stimulate an increase in PP(i) release from EntF C-A or EntE. In this light, aminoacylations in trans between A and PCP domain fragments of NRPS assembly lines must be subjected to kinetic scrutiny to determine whether transfer is truly between protein domains or results from slow aminoacyl-AMP release and subsequent nonenzymatic thiol capture. << Less

  Proc. Natl. Acad. Sci. U.S.A. 97:2509-2514(2000) [PubMed] [EuropePMC]

  This publication is cited by 5 other entries.

• The dhb operon of Bacillus subtilis encodes the biosynthetic template for the catecholic siderophore 2,3-dihydroxybenzoate-glycine-threonine trimeric ester bacillibactin.

  May J.J., Wendrich T.M., Marahiel M.A.

  Bacillus subtilis was reported to produce the catecholic siderophore itoic acid (2,3-dihydroxybenzoate (DHB)-glycine) in response to iron deprivation. However, by inspecting the DNA sequences of the genes dhbE, dhbB, and dhbF as annotated by the B. subtilis genome project to encode the synthetase ... >> More

  Bacillus subtilis was reported to produce the catecholic siderophore itoic acid (2,3-dihydroxybenzoate (DHB)-glycine) in response to iron deprivation. However, by inspecting the DNA sequences of the genes dhbE, dhbB, and dhbF as annotated by the B. subtilis genome project to encode the synthetase complex for the siderophore assembly, various sequence errors within the dhbF gene were predicted and confirmed by re-sequencing. According to the corrected sequence, dhbF encodes a dimodular instead of a monomodular nonribosomal peptide synthetase. We have heterologously expressed, purified, and assayed the substrate selectivity of the recombinant proteins DhbB, DhbE, and DhbF. DhbE, a stand-alone adenylation domain of 59.9 kDa, activates, in an ATP-dependent reaction, DHB, which is subsequently transferred to the free thiol group of the cofactor phosphopantetheine of the bifunctional isochorismate lyase/aryl carrier protein DhbB. The third synthetase, DhbF, is a dimodular nonribosomal peptide synthetase of 264 kDa that specifically adenylates threonine and, to a lesser extent, glycine and that covalently loads both amino acids onto their corresponding peptidyl carrier domains. To functionally link the dhb gene cluster to siderophore synthesis, we have disrupted the dhbF gene. Comparative mass spectrometric analysis of culture extracts from both the wild type and the dhbF mutant led to the identification of a mass peak at m/z 881 ([M-H](1-)) that corresponds to a cyclic trimeric ester of DHB-glycine-threonine. << Less

  J. Biol. Chem. 276:7209-7217(2001) [PubMed] [EuropePMC]

  This publication is cited by 5 other entries.