In Science China. Life sciences
Synthetic biology provides a new paradigm for life science research ("build to learn") and opens the future journey of biotechnology ("build to use"). Here, we discuss advances of various principles and technologies in the mainstream of the enabling technology of synthetic biology, including synthesis and assembly of a genome, DNA storage, gene editing, molecular evolution and de novo design of function proteins, cell and gene circuit engineering, cell-free synthetic biology, artificial intelligence (AI)-aided synthetic biology, as well as biofoundries. We also introduce the concept of quantitative synthetic biology, which is guiding synthetic biology towards increased accuracy and predictability or the real rational design. We conclude that synthetic biology will establish its disciplinary system with the iterative development of enabling technologies and the maturity of the core theory.
Zhang Xian-En, Liu Chenli, Dai Junbiao, Yuan Yingjin, Gao Caixia, Feng Yan, Wu Bian, Wei Ping, You Chun, Wang Xiaowo, Si Tong
2023-Feb-06
DNA storage, artificial intelligent (AI), biofoundry, cell engineering, chassis cell, computer-aided design, de novo design, gene circuit, genome synthesis and assembly, molecular evolution, quantitative synthetic biology, synthetic biology