摘要
Gases are the vital nutrition of all organisms as the precursor of metabolism pathways.As a potential biological process,protein synthesis is inevitably regulated by gas transport and utilization.However,the effect of carbon dioxide(CO_(2))present in many metabolic pathways on protein synthesis has not been studied well.In this work,carbon dioxide combined with oxygen was employed for cell-free protein synthesis(CFPS)in the tube-in-tube reactor with precise control of gas concentration.In this in vitro system,gases could directly affect the protein synthesis process without transmembrane transport.Varied concentrations of carbon dioxide(0-1%)and constant oxygen concentration(21%)were employed for CFPS to assess the effects.The cell-free reactions with 0.3%CO_(2) and 21%O_(2) showed the highest protein yields.The combined effect of CO_(2) and O_(2) also resulted in relatively high protein expression under high oxygen conditions(0.3%CO_(2) and 100%O_(2)).Moreover,metabolomics assays were performed to gain insight into metabolic changes,which showed that CO_(2) slightly improved energy metabolism and redox balance.In particular,the extra supplied CO_(2) activated the decarboxylating reactions and removed toxic metabolites to recover the protein synthesis activity.The exploration of CO_(2) on protein synthesis could provide guiding implications for basic studies and biomanufacturing.
基金
supported by the National Natural Science Foundation of China(Grant No.21878173)
National Key R&D Program of China(Grant No.2018YFA0901700)
a grant from the Institute Guo Qiang,Tsinghua University(2019GQG1016).
