1. Synthesis and Stereochemical Determination of the Peptide Antibiotic Novo29.
- Author
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Krumberger M, Li X, Kreutzer AG, Peoples AJ, Nitti AG, Cunningham AM, Jones CR, Achorn C, Ling LL, Hughes DE, and Nowick JS
- Subjects
- Models, Molecular, Molecular Conformation, Magnetic Resonance Spectroscopy, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Amino Acids chemistry
- Abstract
This paper describes the synthesis and stereochemical determination of Novo29 (clovibactin), a new peptide antibiotic that is related to teixobactin and is active against Gram-positive bacteria. Novo29 is an eight-residue depsipeptide that contains the noncanonical amino acid hydroxyasparagine of hitherto undetermined stereochemistry in a macrolactone ring. The amino acid building blocks Fmoc-(2 R ,3 R )-hydroxyasparagine-OH and Fmoc-(2 R ,3 S )-hydroxyasparagine-OH were synthesized from ( R , R )- and ( S , S )-diethyl tartrate. Novo29 and epi -Novo29 were then prepared by solid-phase peptide synthesis using these building blocks. Correlation with an authentic sample of Novo29 through
1 H NMR spectroscopy, LC-MS, and in vitro antibiotic activity established that Novo29 contains (2 R ,3 R )-hydroxyasparagine. X-ray crystallography reveals that epi -Novo29 adopts an amphiphilic conformation, with a hydrophobic surface and a hydrophilic surface. Four sets of epi -Novo29 molecules pack in the crystal lattice to form a hydrophobic core. The macrolactone ring adopts a conformation in which the main-chain amide NH groups converge to create a cavity, which binds ordered water and acetate anion. The amphiphilic conformation of epi -Novo29 is reminiscent of the amphiphilic conformation adopted by the related antibiotic teixobactin and its derivatives, which contains a hydrophobic surface that interacts with the lipids of the bacterial cell membrane and a hydrophilic surface that interacts with the aqueous environment. Molecular modeling suggests that Novo29 can adopt an amphiphilic conformation similar to teixobactin, suggesting that Novo29 may interact with bacteria in a similar fashion to teixobactin.- Published
- 2023
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