Biointerface by cell growth on layered graphene-artificial peroxidase-protein nanostructure for in situ quantitative molecular detection

Chun Xian Guo; Xin Ting Zheng; Zhi Song Lu; Xiong Wen Lou; Chang Ming Li

doi:10.1002/adma.201001699

Biointerface by cell growth on layered graphene-artificial peroxidase-protein nanostructure for in situ quantitative molecular detection

Chun Xian Guo
, Xin Ting Zheng
, Zhi Song Lu
, Xiong Wen Lou
, Chang Ming Li

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

193 Citations (Scopus)

Abstract

A smart multifunctional biointerface with dimensional compatibility and good electrical conductivity is constructed by growing human breast adenocarcinoma cells on layered graphene-artificial peroxidase-extracellular matrix protein and further used to in situ selectively and quantatively detect reactive oxygen species, for the first time discovering that the number of extracellular released hydrogen peroxide molecules is around 10<sup>11</sup> per cell. Copyright © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Original language	English
Pages (from-to)	5164-5167
Journal	Advanced Materials
Volume	22
Issue number	45
DOIs	https://doi.org/10.1002/adma.201001699
Publication status	Published - 1 Dec 2010
Externally published	Yes

Bibliographical note

Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

Funding

The authors gratefully acknowledge the financial support for the Center for Advanced Bionanosystems, Nanyang Technological University.

Research Keywords

biocompatible materials
biomedical applications
biosensors
layered materials
molecular recognition

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10.1002/adma.201001699

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title = "Biointerface by cell growth on layered graphene-artificial peroxidase-protein nanostructure for in situ quantitative molecular detection",

abstract = "A smart multifunctional biointerface with dimensional compatibility and good electrical conductivity is constructed by growing human breast adenocarcinoma cells on layered graphene-artificial peroxidase-extracellular matrix protein and further used to in situ selectively and quantatively detect reactive oxygen species, for the first time discovering that the number of extracellular released hydrogen peroxide molecules is around 1011 per cell. Copyright {\textcopyright} 2010 WILEY-VCH Verlag GmbH \& Co. KGaA, Weinheim.",

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AU - Guo, Chun Xian

AU - Zheng, Xin Ting

AU - Lu, Zhi Song

AU - Lou, Xiong Wen

AU - Li, Chang Ming

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N2 - A smart multifunctional biointerface with dimensional compatibility and good electrical conductivity is constructed by growing human breast adenocarcinoma cells on layered graphene-artificial peroxidase-extracellular matrix protein and further used to in situ selectively and quantatively detect reactive oxygen species, for the first time discovering that the number of extracellular released hydrogen peroxide molecules is around 1011 per cell. Copyright © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

AB - A smart multifunctional biointerface with dimensional compatibility and good electrical conductivity is constructed by growing human breast adenocarcinoma cells on layered graphene-artificial peroxidase-extracellular matrix protein and further used to in situ selectively and quantatively detect reactive oxygen species, for the first time discovering that the number of extracellular released hydrogen peroxide molecules is around 1011 per cell. Copyright © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

KW - biocompatible materials

KW - biomedical applications

KW - biosensors

KW - layered materials

KW - molecular recognition

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M3 - RGC 21 - Publication in refereed journal

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SP - 5164

EP - 5167

JO - Advanced Materials

JF - Advanced Materials

IS - 45

ER -

Biointerface by cell growth on layered graphene-artificial peroxidase-protein nanostructure for in situ quantitative molecular detection

Abstract

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Research Keywords

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