NAD+激酶
酿酒酵母
合成生物学
新陈代谢
生物化学
酶
生物
化学
生态学
计算生物学
基因
作者
Shubin Li,Yingming Zhao,Shuqi Wu,Xiangxiang Zhang,Boyu Yang,Liangfei Tian,Xiaojun Han
标识
DOI:10.1038/s41467-023-43398-6
摘要
Abstract Constructing a synthetic community system helps scientist understand the complex interactions among species in a community and its environment. Herein, a two-species community is constructed with species A (artificial cells encapsulating pH-responsive molecules and sucrose) and species B ( Saccharomyces cerevisiae ), which causes the environment to exhibit pH oscillation behaviour due to the generation and dissipation of CO 2 . In addition, a three-species community is constructed with species A′ (artificial cells containing sucrose and G6P), species B, and species C (artificial cells containing NAD + and G6PDH). The solution pH oscillation regulates the periodical release of G6P from species A′; G6P then enters species C to promote the metabolic reaction that converts NAD + to NADH. The location of species A′ and B determines the metabolism behaviour in species C in the spatially coded three-species communities with CA′B, CBA′, and A′CB patterns. The proposed synthetic community system provides a foundation to construct a more complicated microecosystem.
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