Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.

Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.

Applications involving biomolecules, such as enzymes, antibodies, and other proteins as well as whole cells, are often hampered by their unstable nature at extremely high temperature and in organic solvents.We constructed enzyme-NPG biocomposites by assembling various enzymes onto the surface of nan...

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Main Authors: Xia Wang, Xueying Liu, Xiuling Yan, Peng Zhao, Yi Ding, Ping Xu
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3166289?pdf=render
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spelling doaj-9ff49f84b3184dcea5716cf5b23beaae2020-11-24T20:40:20ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0169e2420710.1371/journal.pone.0024207Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.Xia WangXueying LiuXiuling YanPeng ZhaoYi DingPing XuApplications involving biomolecules, such as enzymes, antibodies, and other proteins as well as whole cells, are often hampered by their unstable nature at extremely high temperature and in organic solvents.We constructed enzyme-NPG biocomposites by assembling various enzymes onto the surface of nanoporous gold (NPG), which showed much enhanced biocatalytic performance and stability. Various enzymes with different molecular sizes were successfully tethered onto NPG, and the loadings were 3.6, 3.1 and 0.8 mg g(-1) for lipase, catalase and horseradish peroxidase, respectively. The enzyme-NPG biocomposites exhibited remarkable catalytic activities which were fully comparable to those of free enzymes. They also presented enhanced stability, with 74, 78 and 53% of enzymatic activity retained after 20 successive batch reactions. Moreover, these novel biocomposites possessed significantly enhanced reaction durability under various thermal and in organic solvent systems. In a sample transesterification reaction, a high conversion rate was readily achieved by using the lipase-NPG biocomposite.These nano-biocomposite materials hold great potential in applications such as biosensing, molecular electronics, catalysis, and controlled delivery.http://europepmc.org/articles/PMC3166289?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Xia Wang
Xueying Liu
Xiuling Yan
Peng Zhao
Yi Ding
Ping Xu
spellingShingle Xia Wang
Xueying Liu
Xiuling Yan
Peng Zhao
Yi Ding
Ping Xu
Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
PLoS ONE
author_facet Xia Wang
Xueying Liu
Xiuling Yan
Peng Zhao
Yi Ding
Ping Xu
author_sort Xia Wang
title Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
title_short Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
title_full Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
title_fullStr Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
title_full_unstemmed Enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
title_sort enzyme-nanoporous gold biocomposite: excellent biocatalyst with improved biocatalytic performance and stability.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Applications involving biomolecules, such as enzymes, antibodies, and other proteins as well as whole cells, are often hampered by their unstable nature at extremely high temperature and in organic solvents.We constructed enzyme-NPG biocomposites by assembling various enzymes onto the surface of nanoporous gold (NPG), which showed much enhanced biocatalytic performance and stability. Various enzymes with different molecular sizes were successfully tethered onto NPG, and the loadings were 3.6, 3.1 and 0.8 mg g(-1) for lipase, catalase and horseradish peroxidase, respectively. The enzyme-NPG biocomposites exhibited remarkable catalytic activities which were fully comparable to those of free enzymes. They also presented enhanced stability, with 74, 78 and 53% of enzymatic activity retained after 20 successive batch reactions. Moreover, these novel biocomposites possessed significantly enhanced reaction durability under various thermal and in organic solvent systems. In a sample transesterification reaction, a high conversion rate was readily achieved by using the lipase-NPG biocomposite.These nano-biocomposite materials hold great potential in applications such as biosensing, molecular electronics, catalysis, and controlled delivery.
url http://europepmc.org/articles/PMC3166289?pdf=render
work_keys_str_mv AT xiawang enzymenanoporousgoldbiocompositeexcellentbiocatalystwithimprovedbiocatalyticperformanceandstability
AT xueyingliu enzymenanoporousgoldbiocompositeexcellentbiocatalystwithimprovedbiocatalyticperformanceandstability
AT xiulingyan enzymenanoporousgoldbiocompositeexcellentbiocatalystwithimprovedbiocatalyticperformanceandstability
AT pengzhao enzymenanoporousgoldbiocompositeexcellentbiocatalystwithimprovedbiocatalyticperformanceandstability
AT yiding enzymenanoporousgoldbiocompositeexcellentbiocatalystwithimprovedbiocatalyticperformanceandstability
AT pingxu enzymenanoporousgoldbiocompositeexcellentbiocatalystwithimprovedbiocatalyticperformanceandstability
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