Genetic Characterization of the Chlorothricin Gene Cluster as a Model for Spirotetronate Antibiotic Biosynthesis

Genetic Characterization of the Chlorothricin Gene Cluster as a Model for Spirotetronate Antibiotic Biosynthesis

The biosynthetic gene cluster for chlorothricin (CHL) was localized to a 122 kb contiguous DNA from Streptomyces antibioticus DSM 40725, and its involvement in CHL biosynthesis was confirmed by gene inactivation and complementation. Bioinformatic analysis of the sequenced 111.989 kb DNA region revea...

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Veröffentlicht in:Chemistry & biology 2006-06, Vol.13 (6), p.575-585
Hauptverfasser: Jia, Xin-Ying, Tian, Zhen-Hua, Shao, Lei, Qu, Xu-Dong, Zhao, Qun-Fei, Tang, Jian, Tang, Gong-Li, Liu, Wen
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Sequence
Aminoglycosides - chemistry
Aminoglycosides - genetics
Aminoglycosides - metabolism
Anti-Bacterial Agents - biosynthesis
Anti-Bacterial Agents - chemistry
Carbohydrate Metabolism
CHEMBIO
Chlorine - chemistry
Chromatography, High Pressure Liquid
Cloning, Molecular
Conserved Sequence
Drug Resistance, Bacterial - drug effects
Gene Expression Regulation, Bacterial
MICROBIO
Models, Genetic
Molecular Sequence Data
Molecular Structure
Multigene Family - genetics
Oxidation-Reduction
Salicylates - chemistry
Salicylates - metabolism
Sequence Alignment
Streptomyces antibioticus
Streptomyces antibioticus - genetics
Streptomyces antibioticus - metabolism
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Zusammenfassung:The biosynthetic gene cluster for chlorothricin (CHL) was localized to a 122 kb contiguous DNA from Streptomyces antibioticus DSM 40725, and its involvement in CHL biosynthesis was confirmed by gene inactivation and complementation. Bioinformatic analysis of the sequenced 111.989 kb DNA region revealed 42 open reading frames, 35 of which were defined to constitute the CHL gene cluster. An assembly model for CHL biosynthesis from D-olivose, 2-methoxy-5-chloro-6-methylsalicyclic acid, and chlorothricolide building blocks was proposed. This work represents cloning of a gene cluster for spirotetronate antibiotic biosynthesis and sets the stage to investigate the unusual macrolide biosynthesis including tandem Diels-Alder cyclizations, Baeyer-Villiger oxidation, and incorporation of an enoylpyruvate unit.
ISSN:1074-5521
1879-1301
DOI:10.1016/j.chembiol.2006.03.008