Optimization and analysis of dual-enzymatic synthesis for the production of linear glucan

Linear alpha-glucan (LG), a linear polymer linked by alpha-1,4 bonds, has received increasing attention for its potential applications in synthetic polymer production. Notably, the functionality of LG is strongly influenced by its degree polymerization (DP). In this study, SP and GP were successfully constructed and expressed. The reaction of enzymatic co -polymerization into LG was investigated. The preferred reaction was carried out at 37 C and pH for 72 h, with a maximum conversion rate of 25 %. Afterwards, two approaches were used to modulate the molecular structures of LGs. Firstly, LGs with distinct molecular weights ranging from 1062.33 +/- 16.04 g/mol to 5679 +/- 80.29 g/mol were obtained by adjusting the substrate/primer ratio during the LG synthesis process. Secondly, two distinct products could be produced by altering the enzyme addition method: short -chain LG with DP < 10 (64.34 +/- 0.54 %) or long -chain LG with a DP > 45 (45.57 +/- 2.18 %). Additionally, theoretical synthesis model was constructed which subdivided the reaction into three stages to evaluate this dual -enzyme cooperative system. These findings have significant implications in promoting the application of LG in the fields of biomedicine and material science.