Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals

Fa Kuen Shieh; Shao Chun Wang; Chia I. Yen; Chang Cheng Wu; Saikat Dutta; Lien Yang Chou; Joseph V. Morabito; Pan Hu; Ming Hua Hsu; Kevin C.W. Wu; Chia Kuang Tsung

doi:10.1021/ja513058h

Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals

Fa Kuen Shieh, Shao Chun Wang, Chia I. Yen, Chang Cheng Wu, Saikat Dutta, Lien Yang Chou, Joseph V. Morabito, Pan Hu, Ming Hua Hsu, Kevin C.W. Wu, Chia Kuang Tsung

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

696 Scopus citations

Abstract

We develop a new concept to impart new functions to biocatalysts by combining enzymes and metal-organic frameworks (MOFs). The proof-of-concept design is demonstrated by embedding catalase molecules into uniformly sized ZIF-90 crystals via a de novo approach. We have carried out electron microscopy, X-ray diffraction, nitrogen sorption, electrophoresis, thermogravimetric analysis, and confocal microscopy to confirm that the ∼10 nm catalase molecules are embedded in 2 μm single-crystalline ZIF-90 crystals with ∼5 wt % loading. Because catalase is immobilized and sheltered by the ZIF-90 crystals, the composites show activity in hydrogen peroxide degradation even in the presence of protease proteinase K.

Original language	English
Pages (from-to)	4276-4279
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	137
Issue number	13
DOIs	https://doi.org/10.1021/ja513058h
State	Published - 8 Apr 2015

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Shieh, F. K., Wang, S. C., Yen, C. I., Wu, C. C., Dutta, S., Chou, L. Y., Morabito, J. V., Hu, P., Hsu, M. H., Wu, K. C. W., & Tsung, C. K. (2015). Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals. Journal of the American Chemical Society, 137(13), 4276-4279. https://doi.org/10.1021/ja513058h

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title = "Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals",

abstract = "We develop a new concept to impart new functions to biocatalysts by combining enzymes and metal-organic frameworks (MOFs). The proof-of-concept design is demonstrated by embedding catalase molecules into uniformly sized ZIF-90 crystals via a de novo approach. We have carried out electron microscopy, X-ray diffraction, nitrogen sorption, electrophoresis, thermogravimetric analysis, and confocal microscopy to confirm that the ∼10 nm catalase molecules are embedded in 2 μm single-crystalline ZIF-90 crystals with ∼5 wt % loading. Because catalase is immobilized and sheltered by the ZIF-90 crystals, the composites show activity in hydrogen peroxide degradation even in the presence of protease proteinase K.",

author = "Shieh, {Fa Kuen} and Wang, {Shao Chun} and Yen, {Chia I.} and Wu, {Chang Cheng} and Saikat Dutta and Chou, {Lien Yang} and Morabito, {Joseph V.} and Pan Hu and Hsu, {Ming Hua} and Wu, {Kevin C.W.} and Tsung, {Chia Kuang}",

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Shieh, FK, Wang, SC, Yen, CI, Wu, CC, Dutta, S, Chou, LY, Morabito, JV, Hu, P, Hsu, MH, Wu, KCW & Tsung, CK 2015, 'Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals', Journal of the American Chemical Society, vol. 137, no. 13, pp. 4276-4279. https://doi.org/10.1021/ja513058h

Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals. / Shieh, Fa Kuen; Wang, Shao Chun; Yen, Chia I. et al.
In: Journal of the American Chemical Society, Vol. 137, No. 13, 08.04.2015, p. 4276-4279.

Research output: Contribution to journal › Article › peer-review

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T1 - Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach

T2 - Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals

AU - Shieh, Fa Kuen

AU - Wang, Shao Chun

AU - Yen, Chia I.

AU - Wu, Chang Cheng

AU - Dutta, Saikat

AU - Chou, Lien Yang

AU - Morabito, Joseph V.

AU - Hu, Pan

AU - Hsu, Ming Hua

AU - Wu, Kevin C.W.

AU - Tsung, Chia Kuang

PY - 2015/4/8

Y1 - 2015/4/8

N2 - We develop a new concept to impart new functions to biocatalysts by combining enzymes and metal-organic frameworks (MOFs). The proof-of-concept design is demonstrated by embedding catalase molecules into uniformly sized ZIF-90 crystals via a de novo approach. We have carried out electron microscopy, X-ray diffraction, nitrogen sorption, electrophoresis, thermogravimetric analysis, and confocal microscopy to confirm that the ∼10 nm catalase molecules are embedded in 2 μm single-crystalline ZIF-90 crystals with ∼5 wt % loading. Because catalase is immobilized and sheltered by the ZIF-90 crystals, the composites show activity in hydrogen peroxide degradation even in the presence of protease proteinase K.

AB - We develop a new concept to impart new functions to biocatalysts by combining enzymes and metal-organic frameworks (MOFs). The proof-of-concept design is demonstrated by embedding catalase molecules into uniformly sized ZIF-90 crystals via a de novo approach. We have carried out electron microscopy, X-ray diffraction, nitrogen sorption, electrophoresis, thermogravimetric analysis, and confocal microscopy to confirm that the ∼10 nm catalase molecules are embedded in 2 μm single-crystalline ZIF-90 crystals with ∼5 wt % loading. Because catalase is immobilized and sheltered by the ZIF-90 crystals, the composites show activity in hydrogen peroxide degradation even in the presence of protease proteinase K.

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Imparting Functionality to Biocatalysts via Embedding Enzymes into Nanoporous Materials by a de Novo Approach: Size-Selective Sheltering of Catalase in Metal-Organic Framework Microcrystals

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