Two glycosyltransferases and a glycosidase are involved in oleandomycin modification during its biosynthesis by Streptomyces antibioticus

A 5.2 kb region from the oleandomycin gene cluster in Streptomyces antibioticus located between the oleandomycin polyketide synthase gene and sugar biosynthetic genes was cloned. Sequence analysis revealed the presence of three open reading frames (designated oleI, oleN2 and oleR). The oleI gene pro...

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Bibliographic Details
Published in:Molecular microbiology 1998-06, Vol.28 (6), p.1177-1185
Main Authors: Quirós, Luis M., Aguirrezabalaga, Ignacio, Olano, Carlos, Méndez, Carmen, Salas, José A.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Cloning, Molecular
Cosmids - genetics
Electrophoresis, Polyacrylamide Gel
Genes, Bacterial
Glycoside Hydrolases - genetics
Glycoside Hydrolases - metabolism
Glycosylation
Glycosyltransferases - genetics
Glycosyltransferases - isolation & purification
Glycosyltransferases - metabolism
Molecular Sequence Data
Oleandomycin - metabolism
Sequence Alignment
Sequence Analysis, DNA
Streptomyces - enzymology
Streptomyces antibioticus
Streptomyces antibioticus - enzymology
Streptomyces antibioticus - genetics
Substrate Specificity
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Summary:A 5.2 kb region from the oleandomycin gene cluster in Streptomyces antibioticus located between the oleandomycin polyketide synthase gene and sugar biosynthetic genes was cloned. Sequence analysis revealed the presence of three open reading frames (designated oleI, oleN2 and oleR). The oleI gene product resembled glycosyltransferases involved in macrolide inactivation including the oleD product, a previously described glycosyltransferase from S. antibioticus. The oleN2 gene product showed similarities with different aminotransferases involved in the biosynthesis of 6‐deoxyhexoses. The oleR gene product was similar to several glucosidases from different origins. The oleI, oleR and oleD genes were expressed in Streptomyces lividans. OleI and OleD intracellular proteins were partially purified by affinity chromatography in an UDP‐glucuronic acid agarose column and OleR was detected as a major band from the culture supernatant. OleI and OleD showed oleandomycin glycosylating activity but they differ in the pattern of substrate specificity: OleI being much more specific for oleandomycin. OleR showed glycosidase activity converting glycosylated oleandomycin into active oleandomycin. A model is proposed integrating these and previously reported results for intracellular inactivation, secretion and extracellular reactivation of oleandomycin.
ISSN:0950-382X
1365-2958
DOI:10.1046/j.1365-2958.1998.00880.x