高通量筛选系统在定向改造中的新进展

酶和细胞工厂是工业生物技术的核心,在医药、化工、食品、农业、能源等诸多领域发挥重要作用。一般天然酶和细胞均需通过分子改造提高其催化效率、稳定性及立体选择性等。定向改造为快速改善酶和细胞工厂的性能提供了可能性,其中灵敏可靠的高通量筛选方法是决定酶和细胞工厂成功高效定向改造的关键。文中阐述并分析讨论了各种筛选方法的优缺点、适用范围以及信号产生策略,并总结了近3年超高通量筛选技术在酶和细胞工厂定向改造中的最新研究进展。在此基础上,讨论了高通量筛选系统目前面临的限制性因素,并对高通量筛选方法未来的发展趋势作出了展望。希望生物技术和仪器开发等各领域的研究者能够紧密合作,实现协同发展,进一步提升高通量筛选技术的可靠性和适用性。

Advances of high-throughput screening system in reengineering of biological entities

Enzymes and cell factories are the core of industrial biotechnology. They play important roles in various fields such as medicine, chemical industry, food, agriculture, and energy. Usually, natural enzymes and cells need to be engineered to improve the catalytic efficiency, stability and enantioselectivity. Directed evolution makes it possible to rapidly improve the properties of enzymes and cell factories. Sensitive and reliable high-throughput screening approaches are the key for successful and efficient engineering of enzymes and cell factories. In this review, we first summarize the advantages and disadvantages of different screening methods and signal generation strategies as well as their application scope; we then describe the latest advances of ultra-high throughput screening technology applied in the directed evolution of enzymes and cell factories in the past three years. On this basis, we discuss the limiting factors that need to be further improved for high-throughput screening systems and forecast the future development trends of high-throughput screening methods, hoping that researchers in various fields including biotechnology and instrument development can cooperate closely to enhance the reliability and applicability of the high-throughput screening techniques.