4.5 Review

Synthetic biology promotes the capture of CO2 to produce fatty acid derivatives in microbial cell factories

期刊

BIORESOURCES AND BIOPROCESSING
卷 9, 期 1, 页码 -

出版社

SPRINGER HEIDELBERG
DOI: 10.1186/s40643-022-00615-2

关键词

Microorganisms; Carbon capture; Fatty acid derivatives; Biofuels; Synthetic biology

资金

  1. Technical Talent Support Program of the Guizhou Education Department
  2. Scientific Research Funds of Guiyang University [[2022]087]
  3. Guizhou Provincial Key Laboratory for Rare Animal and Economic Insects of the Mountainous Region [GYU-KY-[2022]]
  4. Guizhou Provincial ST Project [[2018]5102]
  5. National Natural Science Foundation of China [ZK[2022]011]
  6. [21908033]
  7. [22065004]

向作者/读者索取更多资源

This review discusses the development of CO2 capture and renewable energy. In recent years, microorganisms have attracted attention as they can directly synthesize valuable fatty acid derivatives from CO2, which can serve as sustainable substitutes for fossil energy. The review also covers microbial metabolic pathways, engineering design methods, and the potential of optoelectronic-microbial integrated systems.
Environmental problems such as greenhouse effect, the consumption of fossil energy, and the increase of human demand for energy are becoming more and more serious, which force researcher to turn their attention to the reduction of CO2 and the development of renewable energy. Unsafety, easy to lead to secondary environmental pollution, cost inefficiency, and other problems limit the development of conventional CO2 capture technology. In recent years, many microorganisms have attracted much attention to capture CO2 and synthesize valuable products directly. Fatty acid derivatives (e.g., fatty acid esters, fatty alcohols, and aliphatic hydrocarbons), which can be used as a kind of environmentally friendly and renewable biofuels, are sustainable substitutes for fossil energy. In this review, conventional CO2 capture techniques pathways, microbial CO2 concentration mechanisms and fixation pathways were introduced. Then, the metabolic pathway and progress of direct production of fatty acid derivatives from CO2 in microbial cell factories were discussed. The synthetic biology means used to design engineering microorganisms and optimize their metabolic pathways were depicted, with final discussion on the potential of optoelectronic-microbial integrated capture and production systems.

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