Romanesco-like calcium carbonate hybrid nanoflowers via egg white lysosomal enzyme-assisted biomineralization  

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作  者:Chan Hee Lee Kyung Chan Jeon Ji Ho Min Hyung Seo Hwang Ee Taek Hwang 

机构地区:[1]Department of Food Biotechnology,Dong-A University,Busan,49315,Republic of Korea [2]School of Chemical Engineering,Jeonbuk National University,Jeonju,54896,Republic of Korea [3]School of Cosmetic Science and Beauty Biotechnology,Semyung University,Jecheon-si,Chungcheongbuk-do,27136,Republic of Korea

出  处:《Particuology》2025年第3期265-270,共6页颗粒学报(英文版)

基  金:supported by the Dong-A University research fund.

摘  要:Bioinspired hybrid organic-inorganic nanoflowers can be significantly influenced by the inclusion of enzymes derived from cellular organelles,thus offering unique structural functions and applications.This study has introduced a novel approach using egg-white lysosomal enzymes(EWLEs)for the synthesis of Romanesco-like calcium carbonate(CaCO_(3))hybrid nanoflowers,marking the first use of cellular organelle enzymes in this context.Our approach leveraged the intrinsic properties of EWLEs,leading to the formation of nanoflowers composed of calcite and vaterite polymorphs via biomimetic mineralization.These hybrid nanoflowers successfully incorporated 1.0 mg of EWLE,exhibited a specific peroxidase activity of approximately 0.0198 mM min^(-1) mg^(-1) and retained over 78% of their initial activity for more than 60 days,demonstrating exceptional stability.This work challenges traditional methods by emphasizing the dynamic,biomimetic transformation of enzyme-organic hybrid systems,and offers new insights into enzyme-material interactions.This bridges the gap between biomineralization and enzyme applications and opens innovative possibilities for stabilizing enzymes,enhancing catalytic efficiency,and developing advanced biomaterials for biocatalysis.

关 键 词:BIOMINERALIZATION Romanesco-like nanoflowers Lysosomal enzymes Calcium carbonate Peroxidase activity 

分 类 号:O64[理学—物理化学]

 

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