Kegg Pathway: Biosynthesis of siderophore group nonribosomal peptides

FEMS Microbiol Lett. 2007 Sep; 274(2): 260-8
Paungmoung P, Punya J, Pongpattanakitshote S, Jeamton W, Vichisoonthonkul T, Bhumiratana S, Tanticharoen M, Linne U, Marahiel MA, Cheevadhanarak S

nonribosomal peptides, synthesized by nonribosomal peptide synthetases (NRPS), are an important group of diverse bioactive fungal metabolites. Xylaria sp. BCC1067, which is known to produce a variety of biologically active metabolites, was studied for gene encoding NRPS by two different PCR-based methods and seven different NRPS fragments were obtained. In addition, screening a genomic library with an amplified NRPS fragment as a probe identified a putative NRPS gene named XyNRPSA. The functionality of XyNRPSA for the production of a corresponding metabolite was probed by gene insertion inactivation. Comparing the disrupting metabolite profile with that of the wild type led to the identification of a speculated metabolite. The crude extract of Xylaria sp. BCC1067 also exhibits antifungal activity against the human pathogens Candida albicans and Trichophyton mentagrophytes. However, the evaluation of biological activity of the XyNRPSA product suggests that it is neither a compound with antifungal activity nor a siderophore. In the vicinity of XyNRPSA, a second gene (named XyPtB) was identified. Its localization and homology to orfB of the ergot alkaloid biosynthetic gene cluster suggests that XyPtB may be involved in XyNRPSA product Biosynthesis.

J Am Chem Soc. 2005 Nov 2; 127(43): 14984-5
McLoughlin SM, Kelleher NL

For the uninterrupted observation of natural product bioassembly on nonribosomal peptide synthetases, Quadrupole Fourier Transform Mass Spectrometry (Q-FTMS) was utilized to directly interrogate peptides harboring covalently modified residues in yersiniabactin synthetase. After proteolysis in CNBr, the peptides corresponding to each carrier site were identified and visualized using a continuous kinetic assay. Overall, complex intermediate formation was rapid, with observation of the HPTT-beta-keto-2,2-dimethyl-S-ACP intermediate within 4 s, while each active site reached saturation within approximately 20 s. Reduction of the beta-keto group at the ACP domain was found to have the slowest rate, accumulating only after 40 s. This represents the first study to correlate five active sites in tandem with kinetic and structural resolution of the complex intermediates in addition to regiospecific information preserved in the assay.

J Am Chem Soc. 2004 Oct 20; 126(41): 13265-75
McLoughlin SM, Kelleher NL

For interrogation of enzyme-bound intermediates in nonribosomal peptide synthetases (NRPSs), mass spectrometry is used to read out the kinetics and substrate specificity of this medicinally important class of enzymes. The protein HMWP2 (230 kDa) catalyzes 11 chemical reactions, four of which could be resolved by fast quench approaches combined with mass spectrometry. The rate of complex intermediate accumulation at the PCP1 active site was observed to occur with a rate of 19 s(-1), with the rate of cysteine acylation faster than that of intermediate translocation. Use of alternative substrates for salicylic acid (at the ArCP carrier domain) and l-cysteine (at the PCP1 carrier domain) revealed a high penalty for omission of the salicyl alcohol. For some substrates, large discrepancies were found between prior adenylation assays and the current MS-based readouts. Indirect evidence for condensation via a thiolate attack (vs an amino group) was also accumulated. This is the first report to correlate the percent occupancy of multiple active sites in parallel with kinetic and structural resolution of intermediates and provides new evidence of interdomain and intermodule communication within thiotemplate assembly lines.

Curr Genet. 2003 Dec; 44(4): 211-5
Oberegger H, Eisendle M, Schrettl M, Graessle S, Haas H

Aspergillus nidulans produces two major siderophores: it excretes triacetylfusarinine C to capture iron and contains ferricrocin as an intracellular iron-storage compound. siderophore Biosynthesis involves the enzymatic activity of nonribosomal peptide synthetases (NRPS). NRPS contain 4'-phosphopantetheine as an essential prosthetic group, which is attached by 4'-phosphopantetheinyl transferases. A. nidulans appears to possess at least one gene, npgA, encoding such an enzyme. Using a strain carrying a temperature-sensitive allele, cfwA2, we showed that NpgA is essential for Biosynthesis of both the peptide bond-containing ferricrocin and the ester bond-containing triacetylfusarinene C. The cfwA2 strain was found to be iron-starved at the restrictive temperature during iron-replete conditions, consistent with the siderophore system being the major iron-uptake system-as we recently demonstrated. Northern analysis indicated that, in contrast to other genes which are involved in siderophore Biosynthesis and uptake, expression of npgA is not controlled by the GATA-transcription factor SreA. It was shown previously that NpgA is required for Biosynthesis of penicillin, pigment, and potentially lysine via the alpha-aminoadipate pathway. Supplementation with lysine plus triacetylfusarinine C restored normal growth of the cfwA2 strain at the restrictive temperature, suggesting that the growth defect of the mutant is mainly due to impaired Biosynthesis of siderophores and lysine.

J Biol Chem. 2001 Mar 9; 276(10): 7209-17
May JJ, Wendrich TM, Marahiel MA

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.

Biochemistry. 1998 Aug 18; 37(33): 11637-50
Gehring AM, Mori I, Perry RD, Walsh CT

Pathogenic Yersinia species have been shown to synthesize a siderophore molecule, yersiniabactin, as a virulence factor during iron starvation. Here we provide the first biochemical evidence for the role of the Yersinia pestis high molecular weight protein 2 (HMWP2), a nonribosomal peptide synthetase homologue, and YbtE in the initiation of yersiniabactin Biosynthesis. YbtE catalyzes the adenylation of salicylate and the transfer of this activated salicyl group to the N-terminal aryl carrier protein domain (ArCP; residues 1-100) of HMWP2. A fragment of HMWP2, residues 1-1491, can adenylate cysteine and with the resulting cysteinyl-AMP autoaminoacylate the peptidyl carrier protein domain (PCP1; residues 1383-1491) either in cis or in trans. Catalytic release of hydroxyphenylthiazoline carboxylic acid (HPT-COOH) and/or N-(hydroxyphenylthiazolinylcarbonyl)cysteine (HPT-cys) is observed upon incubation of YbtE, HMWP2 1-1491, L-cysteine, salicylate, and ATP. These products presumably arise from nucleophilic attack by water or cysteine of a stoichiometric hydroxyphenylthiazolinylcarbonyl-S-PCP1-HMWP2 intermediate. Detection of the heterocyclization capacity of HMWP2 1-1491 implies salicyl-transferring and thiazoline-forming activity for the HMWP2 condensation domain (residues 101-544) and is the first demonstration of such heterocyclization ability in a nonribosomal peptide synthetase enzyme.

J Bacteriol. 1995 Jan; 177(1): 252-8
Merriman TR, Merriman ME, Lamont IL

Pseudomonas aeruginosa secretes a fluorescent siderophore, pyoverdine, when grown under iron-deficient conditions. Pyoverdine consists of a chromophoric group bound to a partly cyclic octapeptide. As a step toward understanding the molecular events involved in pyoverdine synthesis, we have sequenced a gene, pvdD, required for this process. The gene encodes a 2,448-residue protein, PvdD, which has a predicted molecular mass of 273,061 Da and contains two highly similar domains of about 1,000 amino acids each. The protein is similar to peptide synthetases from a range of bacterial and fungal species, indicating that synthesis of the peptide moiety of pyoverdine proceeds by a nonribosomal mechanism. The pvdD gene is adjacent to a gene, fpvA, which encodes an outer membrane receptor protein required for uptake of ferripyoverdine.