Protease-containing silicates as active antifouling materials

Jungbae Kim; Ray Delio; Jonathan S. Dordick

doi:10.1021/bp020036q

Protease-containing silicates as active antifouling materials

Jungbae Kim
, Ray Delio
, Jonathan S. Dordick^*

^*Corresponding author for this work

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

30 Citations (Scopus)

Abstract

Biocatalytic silicates, composite materials composed of α-chymotrypsin and a silicate prepolymer, were prepared via a two-step polymerization process following solubilization of the enzyme in the polymerization media. This new approach resulted in active and stable composites, and a calculated half-life of over 350 days in aqueous buffer at 30°C. The high stability and activity of this biocatalytic silicate was likely due to the covalent attachment between α-chymotrypsin and the silicate matrix. The protease-containing silicate was resistant to fouling by nonselective protein binding, as demonstrated by the dramatically reduced binding of human serum albumin to the silicate material when compared to that of a silicate containing pre-inactivated α-chymotrypsin.

Original language	English
Pages (from-to)	551-555
Number of pages	5
Journal	Biotechnology Progress
Volume	18
Issue number	3
DOIs	https://doi.org/10.1021/bp020036q
Publication status	Published - 2002
Externally published	Yes

ASJC Scopus subject areas

Biotechnology

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10.1021/bp020036q

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@article{14edd3485e62484c96d707a53488627e,

title = "Protease-containing silicates as active antifouling materials",

abstract = "Biocatalytic silicates, composite materials composed of α-chymotrypsin and a silicate prepolymer, were prepared via a two-step polymerization process following solubilization of the enzyme in the polymerization media. This new approach resulted in active and stable composites, and a calculated half-life of over 350 days in aqueous buffer at 30°C. The high stability and activity of this biocatalytic silicate was likely due to the covalent attachment between α-chymotrypsin and the silicate matrix. The protease-containing silicate was resistant to fouling by nonselective protein binding, as demonstrated by the dramatically reduced binding of human serum albumin to the silicate material when compared to that of a silicate containing pre-inactivated α-chymotrypsin.",

author = "Jungbae Kim and Ray Delio and Dordick, \{Jonathan S.\}",

year = "2002",

doi = "10.1021/bp020036q",

language = "English",

volume = "18",

pages = "551--555",

journal = "Biotechnology Progress",

issn = "8756-7938",

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TY - JOUR

T1 - Protease-containing silicates as active antifouling materials

AU - Kim, Jungbae

AU - Delio, Ray

AU - Dordick, Jonathan S.

PY - 2002

Y1 - 2002

N2 - Biocatalytic silicates, composite materials composed of α-chymotrypsin and a silicate prepolymer, were prepared via a two-step polymerization process following solubilization of the enzyme in the polymerization media. This new approach resulted in active and stable composites, and a calculated half-life of over 350 days in aqueous buffer at 30°C. The high stability and activity of this biocatalytic silicate was likely due to the covalent attachment between α-chymotrypsin and the silicate matrix. The protease-containing silicate was resistant to fouling by nonselective protein binding, as demonstrated by the dramatically reduced binding of human serum albumin to the silicate material when compared to that of a silicate containing pre-inactivated α-chymotrypsin.

AB - Biocatalytic silicates, composite materials composed of α-chymotrypsin and a silicate prepolymer, were prepared via a two-step polymerization process following solubilization of the enzyme in the polymerization media. This new approach resulted in active and stable composites, and a calculated half-life of over 350 days in aqueous buffer at 30°C. The high stability and activity of this biocatalytic silicate was likely due to the covalent attachment between α-chymotrypsin and the silicate matrix. The protease-containing silicate was resistant to fouling by nonselective protein binding, as demonstrated by the dramatically reduced binding of human serum albumin to the silicate material when compared to that of a silicate containing pre-inactivated α-chymotrypsin.

UR - https://www.scopus.com/pages/publications/0035988052

U2 - 10.1021/bp020036q

DO - 10.1021/bp020036q

M3 - Article

C2 - 12052072

AN - SCOPUS:0035988052

SN - 8756-7938

VL - 18

SP - 551

EP - 555

JO - Biotechnology Progress

JF - Biotechnology Progress

IS - 3

ER -

Protease-containing silicates as active antifouling materials

Abstract

ASJC Scopus subject areas

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