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首页> 外文期刊>Enzyme and Microbial Technology >Biomimetic CO2 sequestration using purified carbonic anhydrase from indigenous bacterial strains immobilized on biopolymeric materials
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Biomimetic CO2 sequestration using purified carbonic anhydrase from indigenous bacterial strains immobilized on biopolymeric materials

机译:使用纯化的碳酸酐酶从固定在生物聚合物材料上的本地细菌菌株中仿生的二氧化碳封存

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摘要

The present study deals with immobilization of purified CA and whole cell of Pseudomonas fragi. Micrococcus lylae, and Micrococcus luteus 2 on different biopolymer matrices. Highest enzyme immobilization was achieved with P. fragi CA (89%) on chitosan-KOH beads, while maximum cell immobilization was achieved with M. lylae (75%) on chitosan-NH4OH beads. A maximum increase of 1.08-1.18 fold stability between 35 and 55 °C was observed for M. lylae immobilized CA. The storage stability was improved by 2.02 folds after immobilization. FTIR spectra confirmed the adsorption of CA on chitosan-KOH beads following hydrophilic interactions. Calcium carbonate precipitation was achieved using chitosan-KOH immobilized P. fragi CA. More than 2 fold increase in sequestration potential was observed for immobilized system as compared to free enzyme. XRD spectra revealed calcite as the dominant phase in biomimetically produced calcium carbonate.
机译:本研究涉及纯化的CA和脆弱假单胞菌全细胞的固定化。 Microlycoccus lylae和Micrococcus luteus 2在不同的生物聚合物基质上。在壳聚糖-KOH珠粒上,用脆弱假单胞菌CA可获得最高的酶固定率(89%),而在壳聚糖-NH4OH珠粒上,用莱拉霉菌可实现最大的细胞固定率(75%)。对于固定化的莱拉霉CA,观察到在35至55℃之间最大增加1.08-1.18倍的稳定性。固定后,存储稳定性提高了2.02倍。 FTIR光谱证实了亲水相互作用后,CA在壳聚糖-KOH珠上的吸附。使用固定化壳聚糖-KOH的P. fragi CA实现碳酸钙沉淀。与游离酶相比,固定化系统的螯合潜力增加了2倍以上。 XRD谱图显示方解石是仿生产生的碳酸钙中的主要相。

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