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Coculture of marine Streptomyces sp. with Bacillus sp. produces a new piperazic acid-bearing cyclic peptide

Cited 49 time in Web of Science Cited 57 time in Scopus
Authors

Shin, Daniel; Byun, Woong Sub; Moon, Kyuho; Kwon, Yun; Bae, Munhyung; Um, Soohyun; Lee, Sang Kook; Oh, Dong-Chan

Issue Date
2018-10
Publisher
Frontiers Media S.A.
Citation
Frontiers in Chemistry, Vol.6 No.OCT, p. 498
Abstract
Microbial culture conditions in the laboratory, which conventionally involve the cultivation of one strain in one culture vessel, are vastly different fromnaturalmicrobial environments. Even though perfectly mimicking natural microbial interactions is virtually impossible, the cocultivation of multiple microbial strains is a reasonable strategy to induce the production of secondary metabolites, which enables the discovery of new bioactive natural products. Our coculture of marine Streptomyces and Bacillus strains isolated together froman intertidalmudflatled to discover a newmetabolite, dentigerumycin E (1). Dentigerumycin E was determined to be a new cyclic hexapeptide incorporating three piperazic acids, N-OH-Thr, N-OH-Gly, beta-OH-Leu, and a pyran-bearing polyketide acyl chain mainly by analysis of its NMR and MS spectroscopic data. The putative PKS-NRPS biosynthetic gene cluster for dentigerumycin E was found in the Streptomyces strain, providing clear evidence that this cyclic peptide is produced by the Streptomyces strain. The absolute configuration of dentigerumycin E was established based on the advanced Marfey's method, ROESY NMR correlations, and analysis of the amino acid sequence of the ketoreductase domain in the biosynthetic gene cluster. In biological evaluation of dentigerumycin E (1) and its chemical derivatives [2-N,16-N-deoxydenteigerumycin E (2) and dentigerumycinmethyl ester (3)], only dentigerumycin E exhibited antiproliferative and antimetastatic activities against human cancer cells, indicating that N-OH and carboxylic acid functional groups are essential for the biological activity.
ISSN
2296-2646
URI
https://hdl.handle.net/10371/206398
DOI
https://doi.org/10.3389/fchem.2018.00498
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  • College of Pharmacy
  • Department of Manufacturing Pharmacy
Research Area Chemical biology of natural products, Drug discovery from microbial natural products, Study of insect-microbial symbiosis, 미생물 유래 생리활성 천연물 발굴, 천연물 구조 분석

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