Frontiers in Microbiology (Apr 2021)

Rapidly Improving High Light and High Temperature Tolerances of Cyanobacterial Cell Factories Through the Convenient Introduction of an AtpA-C252F Mutation

  • Shanshan Zhang,
  • Shanshan Zhang,
  • Shanshan Zhang,
  • Sini Zheng,
  • Sini Zheng,
  • Sini Zheng,
  • Jiahui Sun,
  • Jiahui Sun,
  • Jiahui Sun,
  • Xuexia Zeng,
  • Xuexia Zeng,
  • Xuexia Zeng,
  • Yangkai Duan,
  • Yangkai Duan,
  • Guodong Luan,
  • Guodong Luan,
  • Xuefeng Lu,
  • Xuefeng Lu,
  • Xuefeng Lu,
  • Xuefeng Lu,
  • Xuefeng Lu

DOI
https://doi.org/10.3389/fmicb.2021.647164
Journal volume & issue
Vol. 12

Abstract

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Photosynthetic biomanufacturing is a promising route for green production of biofuels and biochemicals utilizing carbon dioxide and solar energy. Cyanobacteria are important microbial platforms for constructing photosynthetic cell factories. Toward scaled outdoor cultivations in the future, high light and high temperature tolerances of cyanobacterial chassis strains and cell factories would be determinant properties to be optimized. We proposed a convenient strategy for rapidly improving high light and high temperature tolerances of an important cyanobacterial chassis Synechococcus elongatus PCC 7942 and the derived cell factories. Through introduction and isolation of an AtpA-C252F mutation, PCC 7942 mutants with improved high light and high temperature tolerances could be obtained in only 4 days with an antibiotics-free mode. Adopting this strategy, cellular robustness and sucrose synthesizing capacities of a PCC 7942 cell factory were successfully improved.

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