137817-22-2Relevant academic research and scientific papers
A new siderophore isolated from streptomyces sp. TM-34 with potent inhibitory activity against angiotensin-converting enzyme
Kodani, Shinya,Ohnishi-Kameyama, Mayumi,Yoshida, Mitsuru,Ochi, Kozo
, p. 3191 - 3196 (2011)
A new siderophore named tsukubachelin was isolated from an iron-deficient culture medium of newly isolated strain Streptomyces sp. TM-34. The chemical structure of tsukubachelin was established by the interpretation of 2D NMR and TOF-Mass spectroscopic da
Krisynomycins, Imipenem Potentiators against Methicillin-Resistant Staphylococcus aureus, Produced by Streptomyces canus
De La Cruz, Mercedes,Genilloud, Olga,González, Ignacio,Martín, Jesús,Oves-Costales, Daniel,Pérez-Bonilla, Mercedes,Reyes, Fernando,Vicente, Francisca
, p. 2597 - 2606 (2020/10/12)
A reinvestigation of the acetone extract of the strain CA-091830 of Streptomyces canus, producer of the imipenem potentiator krisynomycin, resulted in the isolation of two additional analogues, krisynomycins B (1) and C (2), with different chlorination patterns. Genome sequencing of the strain followed by detailed bioinformatics analysis led to the identification of the corresponding biosynthetic gene cluster (BGC) of this cyclic nonribosomal peptide family. The planar structure of the new molecules was determined using HRMS, ESI-qTOF-MS/MS, and 1D and 2D NMR data. Their absolute configuration was proposed using a combination of Marfey's and bioinformatic BGC analyses. The krisynomycins displayed weak to negligible antibiotic activity against methicillin-resistant Staphylococcus aureus (MRSA), which was significantly enhanced when tested in combination with sublethal concentrations of imipenem. The halogenation pattern plays a key role in the antimicrobial activity and imipenem-potentiating effects of the compounds, with molecules having a higher number of chlorine atoms potentiating the effect of imipenem at lower doses.
Isolation, structure, and biological activity of phaeofungin, a cyclic lipodepsipeptide from a Phaeosphaeria sp. Using the genome-wide Candida albicans fitness test
Singh, Sheo B.,Ondeyka, John,Harris, Guy,Herath, Kithsiri,Zink, Deborah,Vicente, Francisca,Bills, Gerald,Collado, Javier,Platas, Gonzalo,Gonzalez Del Val, Antonio,Martin, Jesus,Reyes, Fernando,Wang, Hao,Kahn, Jennifer Nielsen,Galuska, Stefan,Giacobbe, Robert,Abruzzo, George,Roemer, Terry,Xu, Deming
, p. 334 - 345 (2013/05/22)
Phaeofungin (1), a new cyclic depsipeptide isolated from Phaeosphaeria sp., was discovered by application of reverse genetics technology, using the Candida albicans fitness test (CaFT). Phaeofungin is comprised of seven amino acids and a β,γ-dihydroxy-γ-methylhexadecanoic acid arranged in a 25-membered cyclic depsipeptide. Five of the amino acids were assigned with d-configurations. The structure was elucidated by 2D-NMR and HRMS-MS analysis of the natural product and its hydrolyzed linear peptide. The absolute configuration of the amino acids was determined by Marfey's method by complete and partial hydrolysis of 1. The CaFT profile of the phaeofungin-containing extract overlapped with that of phomafungin (3), another structurally different cyclic lipodepsipeptide isolated from a Phoma sp. using the same approach. Comparative biological characterization further demonstrated that these two fungal lipodepsipeptides are functionally distinct. While phomafungin was potentiated by cyclosporin A (an inhibitor of the calcineurin pathway), phaeofungin was synergized with aureobasidin A (2) (an inhibitor of the sphingolipid biosynthesis) and to some extent caspofungin (an inhibitor of glucan synthase). Furthermore, phaeofungin caused ATP release in wild-type C. albicans strains but phomafungin did not. It showed modest antifungal activity against C. albicans (MIC 16-32 μg/mL) and better activity against Aspergillus fumigatus (MIC 8-16 μg/mL) and Trichophyton mentagrophytes (MIC 4 μg/mL). The linear peptide was inactive, suggesting that the macrocyclic depsipeptide ring is essential for target engagement and antifungal activity.
