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Strain-boosted hyperoxic graphene oxide efficiently loading and improving performances of microcystinase.


ABSTRACT: Harmful Microcystis blooms (HMBs) and microcystins (MCs) that are produced by Microcystis seriously threaten water ecosystems and human health. This study demonstrates an eco-friendly strategy for simultaneous removal of MCs and HMBs by adopting unique hyperoxic graphene oxides (HGOs) as carrier and pure microcystinase A (PMlrA) as connecting bridge to form stable HGOs@MlrA composite. After oxidation, HGOs yield inherent structural strain effects for boosting the immobilization of MlrA by material characterization and density functional theory calculations. HGO5 exhibits higher loading capacities for crude MlrA (1,559 mg·g-1) and pure MlrA (1,659 mg·g-1). Moreover, the performances of HGO5@MlrA composite, including the capability of removing MCs and HMBs, the ecological and human safety compared to MlrA or HGO5 treatment alone, have been studied. These results indicate that HGO5 can be used as a promising candidate material to effectively improve the application potential of MlrA in the simultaneous removal of MCs and HMBs.

SUBMITTER: Liu HL 

PROVIDER: S-EPMC9250033 | biostudies-literature | 2022 Jul

REPOSITORIES: biostudies-literature

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Strain-boosted hyperoxic graphene oxide efficiently loading and improving performances of microcystinase.

Liu Hong-Lin HL   Cheng Cai C   Zuo Ling-Zi LZ   Yan Ming-Yue MY   He Yan-Lin YL   Huang Shi S   Ke Ming-Jing MJ   Guo Xiao-Liang XL   Feng Yu Y   Qian Hai-Feng HF   Feng Ling-Ling LL  

iScience 20220616 7


Harmful <i>Microcystis</i> blooms (HMBs) and microcystins (MCs) that are produced by <i>Microcystis</i> seriously threaten water ecosystems and human health. This study demonstrates an eco-friendly strategy for simultaneous removal of MCs and HMBs by adopting unique hyperoxic graphene oxides (HGOs) as carrier and pure microcystinase A (PMlrA) as connecting bridge to form stable HGOs@MlrA composite. After oxidation, HGOs yield inherent structural strain effects for boosting the immobilization of  ...[more]

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