Aims: In this study, we explored the possibility of construction of a universal targeting vector by Red/ET recombination to inactivate L gene encoding 3-amino-5-hydroxybenzoic acid (AHBA)-oxidoreductase in AHBA biosynthetic gene cluster to facilitate the detection of ansamycins production in actinomycetes. Methods and Results: Based on the conserved regions of linked AHBA synthase (K), oxidoreductase (L) and phosphatase (M) gene clusters, degenerate primers were designed and PCR was performed to detect KLM gene clusters within 33 AHBA synthase gene-positive actinomycetes strains. Among them, 22 KLM gene cluster-positive strains were identified. A ` universal targeting vector' was further constructed using the 50-nt homologous sequences chosen from four strains internal L gene in KLM gene clusters through Red / ET recombination. The L gene from nine of the KLM gene cluster-positive actinomycetes strains was inactivated by insertion of a kanamycin (Km) resistance marker into its internal region from the ` universal targeting vector'. By comparison of the metabolites produced in parent strains with those in L gene-inactivated mutants, we demonstrated the possible ansamycins production produced by these strains. One strain (4089) was proved to be a geldanamycin producer. Three strains (3-20, 7-32 and 8-32) were identified as potential triene-ansamycins producers. Another strain (3-27) was possible to be a streptovaricin C producer. Strains 24-100 and 4-124 might be served as ansamitocin-like producers. Conclusions: The results confirmed the feasibility that a 'universal targeting vector' could be constructed through Red / ET recombination using the conserved regions of KLM gene clusters to detect ansamycins production in actinomycetes. Significance and Impact of the Study: The 'universal targeting vector' provides a rapid approach in certain degree to detect the potential ansamycin producers from the 22 KLM gene cluster-positive actinomycetes strains.

• 出版日期2012-2
• 单位南京林业大学; 中国医学科学院北京协和医院; 河北医科大学