BACKGROUND: The genetic engineering of antibiotic-producing Streptomyces strains is an approach that became a successful methodology in developing new natural polyketide derivatives. Glycosyltransferases are important biosynthetic enzymes that link sugar moieties to aglycones, which often derive from polyketides. Biological activity is frequently generated along with this process. Here we report the use of glycosyltransferase genes isolated from the landomycin biosynthetic gene cluster to create hybrid landomycin/urdamycin oligosaccharide antibiotics. RESULTS: Production of several novel urdamycin derivatives by a mutant of Streptomyces fradiae Tü2717 has been achieved in a combinatorial biosynthetic approach using glycosyltransferase genes from the landomycin producer Streptomyces cyanogenus S136. For the generation of gene cassettes useful for combinatorial biosynthesis experiments new vectors named pMUNI, pMUNII and pMUNIII were constructed. These vectors facilitate the construction of gene combinations taking advantage of the compatible MunI and EcoRI restriction sites. CONCLUSIONS: The high-yielding production of novel oligosaccharide antibiotics using glycosyltransferase gene cassettes generated in a very convenient way proves that glycosyltransferases can be flexible towards the alcohol substrate. In addition, our results indicate that LanGT1 from S. cyanogenus S136 is a D-olivosyltransferase, whereas LanGT4 is a L-rhodinosyltransferase.
BACKGROUND: The genetic engineering of antibiotic-producing Streptomyces strains is an approach that became a successful methodology in developing new natural polyketide derivatives. Glycosyltransferases are important biosynthetic enzymes that link sugar moieties to aglycones, which often derive from polyketides. Biological activity is frequently generated along with this process. Here we report the use of glycosyltransferase genes isolated from the landomycin biosynthetic gene cluster to create hybrid landomycin/urdamycin oligosaccharide antibiotics. RESULTS: Production of several novel urdamycin derivatives by a mutant of Streptomyces fradiae Tü2717 has been achieved in a combinatorial biosynthetic approach using glycosyltransferase genes from the landomycin producer Streptomyces cyanogenus S136. For the generation of gene cassettes useful for combinatorial biosynthesis experiments new vectors named pMUNI, pMUNII and pMUNIII were constructed. These vectors facilitate the construction of gene combinations taking advantage of the compatible MunI and EcoRI restriction sites. CONCLUSIONS: The high-yielding production of novel oligosaccharide antibiotics using glycosyltransferase gene cassettes generated in a very convenient way proves that glycosyltransferases can be flexible towards the alcohol substrate. In addition, our results indicate that LanGT1 from S. cyanogenus S136 is a D-olivosyltransferase, whereas LanGT4 is a L-rhodinosyltransferase.
Authors: Nuria Menéndez; Mohammad Nur-e-Alam; Carsten Fischer; Alfredo F Braña; José A Salas; Jürgen Rohr; Carmen Méndez Journal: Appl Environ Microbiol Date: 2006-01 Impact factor: 4.792
Authors: Irfan Baig; Madan Kharel; Anton Kobylyanskyy; Lili Zhu; Yuriy Rebets; Bohdan Ostash; Andriy Luzhetskyy; Andreas Bechthold; Victor A Fedorenko; Jürgen Rohr Journal: Angew Chem Int Ed Engl Date: 2006-11-27 Impact factor: 15.336
Authors: Lili Zhu; Bohdan Ostash; Uwe Rix; Mohammad Nur-E-Alam; Almuth Mayers; Andriy Luzhetskyy; Carmen Mendez; Jose A Salas; Andreas Bechthold; Victor Fedorenko; Jürgen Rohr Journal: J Org Chem Date: 2005-01-21 Impact factor: 4.354
Authors: Pekka Patrikainen; Pauli Kallio; Keqiang Fan; Karel D Klika; Khaled A Shaaban; Pekka Mäntsälä; Jürgen Rohr; Keqian Yang; Jarmo Niemi; Mikko Metsä-Ketelä Journal: Chem Biol Date: 2012-05-25