欢迎来北京市农林科学院植物保护研究所!
Huiling Wu, Jinjin Li, Dan Dong, Ting Liu,
Taotao Zhang, Dianpeng Zhang, Weicheng Liu.
Enzyme and Microbial Technology 81 (2015)
80–87
Streptomyces
lydicus A02 is a novel producer of commercially important polyene macrocyclic
antibioticnatamycin and a potential biocontrol agent to several plant fungal
diseases, including wilt caused byFusarium oxysporum f. spp. To improve the
natamycin production and the antifungal activity of S. lydicusA02, we
coexpressed gene vgb encoding Vitreoscilla hemoglobin (VHb) and bglC encoding Bacillus
mega-terium L103 glucanase, both under the control of the strong constitutive
ermE* promoter, in S. lydicusA02. Our results showed that coexpressing VHb and
glucanase improved cell growth, and the engineeredstrain produced 26.90% more
biomass than the wild-type strain after 72 h fermentation in YSG medium.In
addition, coexpressing genes encoding VHb and glucanase led to increased
natamycin production,higher endogenous chitinase activity and exogenous
glucanase activity, as well as enhanced antifungalactivity in the engineered S.
lydicus AVG02 and AGV02, regardless of the position of the two genes on
theplasmids. Compared with model strains, few reports have successfully
coexpressed VHb and other for-eign proteins in industrial strains. Our results
illustrated an effective approach for improving antifungalactivity in an
industrial strain by the rational engineering of combined favorable factors.
Copyright © 2015 - 2021 北京市农林科学院植物保护研究所 京ICP备13038350号-7