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Transcription Factor Engineering Harnesses Metabolic Networks to meeting industrial requirements in Yeast
  • +1
  • Shuxin Dong,
  • Lei Qin,
  • Chun Li,
  • Jun Li
Shuxin Dong

Corresponding Author:dongshuxin2020@163.com

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Chun Li
Tsinghua University
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Jun Li
Beijing Institute of Technology
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Abstract

Yeast has been well-used as a typical microbial platform to make fermented fine chemicals. However, various stress conditions severely restrict the production costs and benefits. One effective way to resolve such bottlenecks is to engineer transcription factors (TFs) to enhance strain tolerance and production efficiency through remodeling the transcript levels of different stress resistant genes. Here, we focus on the recent advances in the mechanisms of yeast adaptive responses upon stresses of heat, acetic acid and oxidants and classify them into different modules within yeast cells. In particular, novel strategies for the enhancement of both tolerance and yield by TFs engineering are examined. In addition, the applications of artificial transcription factor (ATFs)-based fabricating in metabolic fluxes optimization and quantitative evaluation are discussed. Lastly, we discuss challenges and potential solutions in exploiting TFs engineering and for A bio-based economy products.
28 Oct 2020Submitted to Biotechnology Journal
31 Oct 2020Submission Checks Completed
31 Oct 2020Assigned to Editor