Advances in using adaptive laboratory evolution technology for engineering of photosynthetic cyanobacteria / 生物工程学报
Chinese Journal of Biotechnology
; (12): 3075-3094, 2023.
Article
ي Zh
| WPRIM
| ID: wpr-1007946
المكتبة المسؤولة:
WPRO
ABSTRACT
Cyanobacteria are the only prokaryotes capable of oxygenic photosynthesis, which have potential to serve as "autotrophic cell factories". However, the synthesis of biofuels and chemicals using cyanobacteria as chassis are suffered from poor stress tolerance and low yield, resulting in low economic feasibility for industrial production. Thus, it's urgent to construct new cyanobacterial chassis by means of synthetic biology. In recent years, adaptive laboratory evolution (ALE) has made great achievements in chassis engineering, including optimizing growth rate, increasing tolerance, enhancing substrate utilization and increasing product yield. ALE has also made some progress in improving the tolerance of cyanobacteria to high light intensity, heavy metal ions, high concentrations of salt and organic solvents. However, the engineering efficiency of ALE strategy in cyanobacteria is generally low, and the molecular mechanisms underpinning the tolerance to various stresses have not been fully elucidated. To this end, this review summarizes the ALE-associated technical strategies and their applications in cyanobacteria chassis engineering, following by discussing how to construct larger ALE mutation library, increase mutation frequency of strains and shorten evolution time. Moreover, exploration of the construction principles and strategies for constructing multi-stress tolerant cyanobacteria, and efficient analysis the mutant libraries of evolved strains as well as construction of strains with high yield and strong robustness are discussed, with the aim to facilitate the engineering of cyanobacteria chassis and the application of engineered cyanobacteria in the future.
Key words
النص الكامل:
1
الفهرس:
WPRIM
الموضوع الرئيسي:
Photosynthesis
/
Technology
/
Cyanobacteria
/
Biofuels
/
Light
اللغة:
Zh
مجلة:
Chinese Journal of Biotechnology
السنة:
2023
نوع:
Article