Two novel landomycin compounds, landomycins I and J, were generated with a new mutant strain of Streptomyces cyanogenus in which the glycosyltransferase that is encoded by lanGT3 was over-expressed. This mutant also produced the known landomycins A, B, and D. All these compounds consist of the same polyketide-derived aglycon but differ in their sugar moieties, which are chains of different lengths. The major new metabolite, landomycin J, was found to consist of landomycinone with a tetrasaccharide chain attached. Combined with previous results of the production of landomycin E (which contains three sugars) by the LanGT3- mutant strain (obtained by targeted gene deletion of lanGT3), it was verified that LanGT3 is a D-olivosyltransferase responsible for the transfer of the fourth sugar required for landomycin A biosynthesis. The experiments also showed that gene over-expression is a powerful method for unbalancing biosynthetic pathways in order to generate new metabolites. The cytotoxicity of the new landomycins--compared to known ones--was assessed by using three different tumor cell lines, and their structure-activity relationship (SAR) with respect to the length of the deoxysugar side chain was deduced from the results.