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- Title
Characterisation of the genes involved in the biosynthesis and attachment of the aminodeoxysugar d-forosamine in the auricin gene cluster of Streptomyces aureofaciens CCM3239.
- Authors
Bekeova, Carmen; Rehakova, Alena; Feckova, Lubomira; Vlckova, Silvia; Novakova, Renata; Mingyar, Erik; Kormanec, Jan
- Abstract
We previously identified the aur1 gene cluster which produces the angucycline antibiotic auricin. Preliminary characterisation of auricin revealed that it is modified by a single aminodeoxysugar, d-forosamine. Here we characterise the d-forosamine-specific genes. The four close tandem genes, aur1TQSV, encoding enzymes involved in the initial steps of the deoxysugar biosynthesis, were located on a large operon with other core auricin biosynthetic genes. Deleting these genes resulted in the absence of auricin and the production of deglycosylated auricin intermediates. The two final d-forosamine biosynthetic genes, sa59, an NDP-hexose aminotransferase, and sa52, an NDP-aminohexose N-dimethyltransferase, are located in a region rather distant from the core auricin genes. A deletion analysis of these genes confirmed their role in d-forosamine biosynthesis. The Δ sa59 mutant had a phenotype similar to that of the cluster deletion mutant, while the Δ sa52 mutant produced an auricin with a demethylated d-forosamine. Although auricin contains a single deoxyhexose, two glycosyltransferase genes were found to participate in the attachment of d-forosamine to the auricin aglycon. An analysis of the expression of the d-forosamine biosynthesis genes revealed that the initial d-forosamine biosynthetic genes aur1TQSV are regulated together with the other auricin core genes by the aur1Ap promoter under the control of the auricin-specific activator Aur1P. The expression of the other d-forosamine genes, however, is governed by promoters differentially dependent upon the two SARP family auricin-specific activators Aur1PR3 and Aur1PR4. These promoters contain direct repeats similar to the SARP consensus sequence and are involved in the interaction with both regulators.
- Subjects
GENE expression; BIOSYNTHESIS; DEOXY sugars; AMINE analysis; STREPTOMYCES aureofaciens; AMINOTRANSFERASES
- Publication
Applied Microbiology & Biotechnology, 2016, Vol 100, Issue 7, p3177
- ISSN
0175-7598
- Publication type
Article
- DOI
10.1007/s00253-015-7214-9