Recent advances in enzyme-nanostructure biocatalysts with enhanced activity

Jing An; Galong Li; Yifan Zhang; Tingbin Zhang; Xiaoli Liu; Fei Gao; Mingli Peng; Yuan He; Haiming Fan

doi:10.3390/catal10030338

Recent advances in enzyme-nanostructure biocatalysts with enhanced activity

Jing An
, Galong Li
, Yifan Zhang
, Tingbin Zhang
, Xiaoli Liu
, Fei Gao
, Mingli Peng
, Yuan He
, Haiming Fan

Northwest University China

Research output: Contribution to journal › Review article › peer-review

67 Scopus citations

Abstract

Owing to their unique physicochemical properties and comparable size to biomacromolecules, functional nanostructures have served as powerful supports to construct enzyme-nanostructure biocatalysts (nanobiocatalysts). Of particular importance, recent years have witnessed the development of novel nanobiocatalysts with remarkably increased enzyme activities. This review provides a comprehensive description of recent advances in the field of nanobiocatalysts, with systematic elaboration of the underlying mechanisms of activity enhancement, including metal ion activation, electron transfer, morphology effects, mass transfer limitations, and conformation changes. The nanobiocatalysts highlighted here are expected to provide an insight into enzyme–nanostructure interaction, and provide a guideline for future design of high-efficiency nanobiocatalysts in both fundamental research and practical applications.

Original language	English
Article number	338
Journal	Catalysts
Volume	10
Issue number	3
DOIs	https://doi.org/10.3390/catal10030338
State	Published - Mar 2020
Externally published	Yes

Keywords

Enzyme immobilization
Hybrid materials
Increased activity
Nanobiocatalysts
Nanomaterials

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10.3390/catal10030338

Cite this

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title = "Recent advances in enzyme-nanostructure biocatalysts with enhanced activity",

abstract = "Owing to their unique physicochemical properties and comparable size to biomacromolecules, functional nanostructures have served as powerful supports to construct enzyme-nanostructure biocatalysts (nanobiocatalysts). Of particular importance, recent years have witnessed the development of novel nanobiocatalysts with remarkably increased enzyme activities. This review provides a comprehensive description of recent advances in the field of nanobiocatalysts, with systematic elaboration of the underlying mechanisms of activity enhancement, including metal ion activation, electron transfer, morphology effects, mass transfer limitations, and conformation changes. The nanobiocatalysts highlighted here are expected to provide an insight into enzyme–nanostructure interaction, and provide a guideline for future design of high-efficiency nanobiocatalysts in both fundamental research and practical applications.",

keywords = "Enzyme immobilization, Hybrid materials, Increased activity, Nanobiocatalysts, Nanomaterials",

author = "Jing An and Galong Li and Yifan Zhang and Tingbin Zhang and Xiaoli Liu and Fei Gao and Mingli Peng and Yuan He and Haiming Fan",

note = "Publisher Copyright: {\textcopyright} 2020 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2020",

month = mar,

doi = "10.3390/catal10030338",

language = "英语",

volume = "10",

journal = "Catalysts",

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T1 - Recent advances in enzyme-nanostructure biocatalysts with enhanced activity

AU - An, Jing

AU - Li, Galong

AU - Zhang, Yifan

AU - Zhang, Tingbin

AU - Liu, Xiaoli

AU - Gao, Fei

AU - Peng, Mingli

AU - He, Yuan

AU - Fan, Haiming

PY - 2020/3

Y1 - 2020/3

N2 - Owing to their unique physicochemical properties and comparable size to biomacromolecules, functional nanostructures have served as powerful supports to construct enzyme-nanostructure biocatalysts (nanobiocatalysts). Of particular importance, recent years have witnessed the development of novel nanobiocatalysts with remarkably increased enzyme activities. This review provides a comprehensive description of recent advances in the field of nanobiocatalysts, with systematic elaboration of the underlying mechanisms of activity enhancement, including metal ion activation, electron transfer, morphology effects, mass transfer limitations, and conformation changes. The nanobiocatalysts highlighted here are expected to provide an insight into enzyme–nanostructure interaction, and provide a guideline for future design of high-efficiency nanobiocatalysts in both fundamental research and practical applications.

AB - Owing to their unique physicochemical properties and comparable size to biomacromolecules, functional nanostructures have served as powerful supports to construct enzyme-nanostructure biocatalysts (nanobiocatalysts). Of particular importance, recent years have witnessed the development of novel nanobiocatalysts with remarkably increased enzyme activities. This review provides a comprehensive description of recent advances in the field of nanobiocatalysts, with systematic elaboration of the underlying mechanisms of activity enhancement, including metal ion activation, electron transfer, morphology effects, mass transfer limitations, and conformation changes. The nanobiocatalysts highlighted here are expected to provide an insight into enzyme–nanostructure interaction, and provide a guideline for future design of high-efficiency nanobiocatalysts in both fundamental research and practical applications.

KW - Enzyme immobilization

KW - Hybrid materials

KW - Increased activity

KW - Nanobiocatalysts

KW - Nanomaterials

UR - https://www.scopus.com/pages/publications/85082202133

U2 - 10.3390/catal10030338

DO - 10.3390/catal10030338

M3 - 文献综述

AN - SCOPUS:85082202133

SN - 2073-4344

VL - 10

JO - Catalysts

JF - Catalysts

IS - 3

M1 - 338

ER -

Recent advances in enzyme-nanostructure biocatalysts with enhanced activity

Abstract

Keywords

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