Marker removal from actinomycetes genome using Flp recombinase.

We report here a system for the functional expression of the Flp recombinase in several actinomycetes: Streptomyces coelicolor, S. lividans, and Saccharotrix espanaensis. We have constructed a synthetic gene encoding the Flp recombinase with a GC content of 60.

Functional expression of the Cre recombinase in actinomycetes.

Site-specific recombinases revolutionized "in vivo" genetic engineering because they can catalyze precise excisions, integrations, inversions, or translocations of DNA between their distinct recognition target sites. We have constructed a synthetic gene encoding Cre recombinase with the GC content 67.7% optimized for expression in high-GC bacteria and demonstrated this gene to be functional in Streptomyces lividans.

Iteratively acting glycosyltransferases involved in the hexasaccharide biosynthesis of landomycin A.

Detailed studies on the biosynthesis of the hexasaccharide side chain of landomycin A, produced by S. cyanogenus S136, revealed the function of each glycosyltransferase gene of the biosynthetic gene cluster. Analyses of generated mutants as well as feeding experiments allowed us to determine that LanGT2 and LanGT3 catalyze the attachment of one sugar, whereas LanGT1 and LanGT4 attach two sugars during landomycin A biosynthesis.

LanGT2 Catalyzes the First Glycosylation Step during landomycin A biosynthesis.

The glycosyltransferase LanGT2 is involved in the biosynthesis of the hexasaccharide side chain of the angucyclic antibiotic landomycin A. Its function was elucidated by targeted gene inactivation of lanGT2. The main metabolite of the obtained mutant was identified as tetrangulol (4), the progenitor of the landomycin aglycon (7).

Generation of novel landomycins M and O through targeted gene disruption.

Two genes from Streptomyces cyanogenous S136 that encode the reductase LanZ4 and the hydroxylase LanZ5, which are involved in landomycin A biosynthesis, were characterized by targeted gene inactivation. Analyses of the corresponding mutants as well as complementation experiments have allowed us to show that LanZ4 and LanZ5 are responsible for the unique C-11-hydroxylation that occurs during landomycin biosynthesis. Compounds accumulated by the lanZ4/Z5 mutants are the previously described landomycin F and the new landomycins M and O.

Function of lanGT3, a glycosyltransferase gene involved in landomycin A biosynthesis.

The glycosyltransferase gene lanGT3, involved in the biosynthesis of the angucyclic antibiotic landomycin A, has been characterised by targeted gene deletion. A lanGT3 mutant was shown to produce landomycin E, which consists of a trisaccharide side chain attached to the polyketide moiety. Expression of lanGT3 in the mutant restored landomycin A production.