Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics

Traditional chemical methods for nitro reduction are typically conducted under harsh conditions and are readily explosive, such as hydrogen pressurization and zinc powder reduction. Nitroreductase (NTR) as a biocatalyst may represent a promising strategy to solve this synthetic challenging. Unfortun...

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Autores principales: Baoxing Shen, Rui Ding, Jianan Dai, Yuan Ji, Qingzhuo Wang, Yuwen Wang, He Huang, Xing Zhang
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Lenguaje:EN
Publicado: KeAi Communications Co. Ltd. 2021
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Acceso en línea:https://doaj.org/article/42a1eb29be96493e9402b9ea7486e4ac
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spelling oai:doaj.org-article:42a1eb29be96493e9402b9ea7486e4ac2021-12-02T05:03:57ZEncapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics2666-554910.1016/j.gresc.2021.09.001https://doaj.org/article/42a1eb29be96493e9402b9ea7486e4ac2021-11-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S266655492100079Xhttps://doaj.org/toc/2666-5549Traditional chemical methods for nitro reduction are typically conducted under harsh conditions and are readily explosive, such as hydrogen pressurization and zinc powder reduction. Nitroreductase (NTR) as a biocatalyst may represent a promising strategy to solve this synthetic challenging. Unfortunately, due to the availability of this enzyme, the lack of long-term stability as well as challenging recovery process, very limited work was reported about its applicability for the reduction of nitro groups. Here, based on the highly efficient expression of NTR in our lab, we firstly reported the encapsulation of NTR into ZIF-8 to form NTR@ZIF-8. The resulting framework composite demonstrated an excellent protective capability of enzyme against harsh environment and could also simplify the complex downstream separation and recovery operations. Moreover, after five successive cycles of reuse to reduce 4-NP, the residual NTR@ZIF-8 still reserved a certain activity, which can significantly reduce the processing cost and might be applicable in the industries in the future.Baoxing ShenRui DingJianan DaiYuan JiQingzhuo WangYuwen WangHe HuangXing ZhangKeAi Communications Co. Ltd.articleBiocatalystMetal-organic frameworkNitroreductaseNTR@ZIF-8Nitro-aromaticsChemical technologyTP1-1185BiochemistryQD415-436ENGreen Synthesis and Catalysis, Vol 2, Iss 4, Pp 367-373 (2021)
institution DOAJ
collection DOAJ
language EN
topic Biocatalyst
Metal-organic framework
Nitroreductase
NTR@ZIF-8
Nitro-aromatics
Chemical technology
TP1-1185
Biochemistry
QD415-436
spellingShingle Biocatalyst
Metal-organic framework
Nitroreductase
NTR@ZIF-8
Nitro-aromatics
Chemical technology
TP1-1185
Biochemistry
QD415-436
Baoxing Shen
Rui Ding
Jianan Dai
Yuan Ji
Qingzhuo Wang
Yuwen Wang
He Huang
Xing Zhang
Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics
description Traditional chemical methods for nitro reduction are typically conducted under harsh conditions and are readily explosive, such as hydrogen pressurization and zinc powder reduction. Nitroreductase (NTR) as a biocatalyst may represent a promising strategy to solve this synthetic challenging. Unfortunately, due to the availability of this enzyme, the lack of long-term stability as well as challenging recovery process, very limited work was reported about its applicability for the reduction of nitro groups. Here, based on the highly efficient expression of NTR in our lab, we firstly reported the encapsulation of NTR into ZIF-8 to form NTR@ZIF-8. The resulting framework composite demonstrated an excellent protective capability of enzyme against harsh environment and could also simplify the complex downstream separation and recovery operations. Moreover, after five successive cycles of reuse to reduce 4-NP, the residual NTR@ZIF-8 still reserved a certain activity, which can significantly reduce the processing cost and might be applicable in the industries in the future.
format article
author Baoxing Shen
Rui Ding
Jianan Dai
Yuan Ji
Qingzhuo Wang
Yuwen Wang
He Huang
Xing Zhang
author_facet Baoxing Shen
Rui Ding
Jianan Dai
Yuan Ji
Qingzhuo Wang
Yuwen Wang
He Huang
Xing Zhang
author_sort Baoxing Shen
title Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics
title_short Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics
title_full Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics
title_fullStr Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics
title_full_unstemmed Encapsulating nitroreductase into metal-organic framework: Boosting industrial performance for the reduction of nitro-aromatics
title_sort encapsulating nitroreductase into metal-organic framework: boosting industrial performance for the reduction of nitro-aromatics
publisher KeAi Communications Co. Ltd.
publishDate 2021
url https://doaj.org/article/42a1eb29be96493e9402b9ea7486e4ac
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