Ian B. Parr scite author profile

Daptomycin is a 13 amino acid, cyclic lipopeptide produced by a non-ribosomal peptide synthetase (NRPS) mechanism in Streptomyces roseosporus. A 128 kb region of S. roseosporus DNA was cloned and verified by heterologous expression in Streptomyces lividans to contain the daptomycin biosynthetic gene cluster (dpt). The cloned region was completely sequenced and three genes (dptA, dptBC, dptD) encoding the three subunits of an NRPS were identified. The catalytic domains in the subunits, predicted to couple five, six or two amino acids, respectively, included a novel activation domain and amino-acid-binding pocket for incorporating the unusual amino acid L-kynurenine (Kyn), three types of condensation domains and an extra epimerase domain (E-domain) in the second module. Novel genes (dptE, dptF ) whose products likely work in conjunction with a unique condensation domain to acylate the first amino acid, as well as other genes (dptI, dptJ) probably involved in supply of the non-proteinogenic amino acids L-3-methylglutamic acid and Kyn, were located next to the NRPS genes. The unexpected E-domain suggested that daptomycin would have D-Asn, rather than L-Asn, as originally assigned, and this was confirmed by comparing stereospecific synthetic peptides and the natural product both chemically and microbiologically.

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Synthesis and biological activity of N-Acylated ornithine analogues of daptomycin

Hill

Siedlecki

Parr

et al. 2003

Bioorganic & Medicinal Chemistry Letters

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Array synthesis of novel lipodepsipeptide

Siedlecki

Hill

Parr

et al. 2003

Bioorganic & Medicinal Chemistry Letters

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Mapping the Aspartic Acid Binding Site of Escherichia coli Asparagine Synthetase B Using Substrate Analogs

et al. 1996

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Novel inhibitors of asparagine synthetase, that will lower circulating levels of blood asparagine, have considerable potential in developing new protocols for the treatment of acute lymphoblastic leukemia. We now report the indirect characterization of the aspartate binding site of Escherichia coli asparagine synthetase B (AS-B) using a number of stereochemically, and conformationally, defined aspartic acid analogs. Two compounds, prepared using novel reaction conditions for the stereospecific beta-functionalization of aspartic acid diesters, have been found to be competitive inhibitors with respect to aspartate in kinetic studies on AS-B. Chemical modification experiments employing [(fluorosulfonyl)benzoyl]adenosine (FSBA), an ATP analog, demonstrate that both inhibitors bind to the aspartate binding site of AS-B. Our results reveal that large steric alterations in the substrate are not tolerated by the enzyme, consistent with the failure of previous efforts to develop AS inhibitors using random screening approaches, and that all of the ionizable groups are placed in close proximity in the bound conformation of aspartate.

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New Electronic Analogs of the Sialyl Cation: N-Functionalized 4-Acetamido-2,4-dihydroxypiperidines. Inhibition of Bacterial Sialidases

Parr

Horenstein

1997

J. Org. Chem.

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Ian B. Parr

Daptomycin biosynthesis in Streptomyces roseosporus: cloning and analysis of the gene cluster and revision of peptide stereochemistry

Synthesis and biological activity of N-Acylated ornithine analogues of daptomycin

Array synthesis of novel lipodepsipeptide

Mapping the Aspartic Acid Binding Site of Escherichia coli Asparagine Synthetase B Using Substrate Analogs

New Electronic Analogs of the Sialyl Cation: N-Functionalized 4-Acetamido-2,4-dihydroxypiperidines. Inhibition of Bacterial Sialidases

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