Molecular engineering of thiostrepton via single “base”-based mutagenesis to generate side ring-derived variants
Literature Information
Publication Date
2016-07-29
DOI
10.1039/C6QO00320F
Impact Factor
5.281
Authors
Panpan Duan, Qingfei Zheng, Zhi Lin, Shoufeng Wang, Dandan Chen
View Original
Abstract
The quinaldic acid (QA) moiety in the side ring of thiostrepton (TSR), which can be modified regioselectively via precursor-directed mutational biosynthesis, was proven to be biologically relevant but tunable, affecting TSR's outstanding antibacterial activities. In this study, we sought to obtain TSR derivatives with varying amino acid residues connected to the QA moiety. The generation of these TSR derivatives relied on single “base”-based mutagenesis, and six new TSR-type compounds were obtained. Moreover, the simultaneous mutation of Ile1 and Ala2 in the TSR side ring resulted in a naturally occurring compound, siomycin (SIO), together with a new component, SIO-Dha2Ser. The anti-infection assays indicated that all of these new compounds could act as both antimicrobial agents and autophagy inducers, and these two kinds of activities can also be separated via regioselective modifications on the TSR side ring.
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Source Journal
Organic Chemistry Frontiers
CiteScore:
7.8
Self-citation Rate:
8.7%
Articles per Year:
724
Organic Chemistry Frontiers publishes high-quality research from across organic chemistry. Emphases are placed on studies that make significant contributions to the field of organic chemistry by reporting either new or significantly improved protocols or methodologies. Topics include, but are not limited to the following: Organic synthesis Development of synthetic methodologies Catalysis Natural products Functional organic materials Supramolecular and macromolecular chemistry Physical and computational organic chemistry
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CAS Number:
63039-48-5
Molecular Formula:
C10H15NO4
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