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Article Abstract
The α-glucosidase inhibitor acarbose is used in the treatment of type 2 diabetes mellitus. Metabolic engineering is crucial to overcome acarbose production bottlenecks. Herein, a genetic toolkit was developed to enable metabolic engineering in sp.. The attachment/integration (Att/Int) systems of ΦBT1, pSAM2, R4, and TG1 showed conjugation frequencies of 0.98-24.4%. Furthermore, three mutants were constructed by deleting nontarget biosynthetic gene clusters (BGCs) and inserting one to three additional copies of the acarbose biosynthetic gene cluster (). These mutants, with 2, 3, and 4 copies of gene cluster, demonstrated titer increases of 69.4%, 99.3%, and 24.2%, respectively, with a sharply declined titer in the four-copy strain LGQ-17::3. To rescue the acarbose titer in LGQ-17::3, we overexpressed rate-limiting genes , , , , , , or . The overexpression of and resulted in acarbose titer increases of 1.04-fold and 98%, respectively. Furthermore, following fed-batch fermentation optimization in shake flasks, the titer of acarbose in LGQ-17::3::- increased by 1.1-fold to reach 8.12 g/L. This genetic engineering toolkit with multiple Att/Int systems and high conjugation frequencies paves the way for future genetic engineering in sp., and the engineered strain shows excellent potential for industrial application.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12123602 | PMC |
| http://dx.doi.org/10.1021/acs.jafc.5c00613 | DOI Listing |
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