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Spatially confined lignin nanospheres for biocatalytic ester synthesis in aqueous media.


ABSTRACT: Dehydration reactions proceed readily in water-filled biological cells. Development of biocatalysts that mimic such compartmentalized reactions has been cumbersome due to the lack of low-cost nanomaterials and associated technologies. Here we show that cationic lignin nanospheres function as activating anchors for hydrolases, and enable aqueous ester synthesis by forming spatially confined biocatalysts upon self-assembly and drying-driven aggregation in calcium alginate hydrogel. Spatially confined microbial cutinase and lipase retain 97% and 70% of their respective synthetic activities when the volume ratio of water to hexane increases from 1:1 to 9:1 in the reaction medium. The activity retention of industrially most frequently used acrylic resin-immobilized Candida antarctica lipase B is only 51% under similar test conditions. Overall, our findings enable fabrication of robust renewable biocatalysts for aqueous ester synthesis, and provide insight into the compartmentalization of diverse heterogeneous catalysts.

SUBMITTER: Sipponen MH 

PROVIDER: S-EPMC5997711 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Spatially confined lignin nanospheres for biocatalytic ester synthesis in aqueous media.

Sipponen Mika Henrikki MH   Farooq Muhammad M   Koivisto Jari J   Pellis Alessandro A   Seitsonen Jani J   Österberg Monika M  

Nature communications 20180612 1


Dehydration reactions proceed readily in water-filled biological cells. Development of biocatalysts that mimic such compartmentalized reactions has been cumbersome due to the lack of low-cost nanomaterials and associated technologies. Here we show that cationic lignin nanospheres function as activating anchors for hydrolases, and enable aqueous ester synthesis by forming spatially confined biocatalysts upon self-assembly and drying-driven aggregation in calcium alginate hydrogel. Spatially confi  ...[more]

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