Porous structured cellulose microsphere acts as biosensor for glucose detection with “signal-and-color” output

•GOx was introduced into spider webs structured cellulose microgel.•The mocrogels had colorimetric responsivity to glucose.•The dual-color glucose probe provided an alternative color choice. In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with...

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Published inCarbohydrate polymers Vol. 205; pp. 295 - 301
Main Authors Li, Wei, Zhang, Li, Li, Qi, Wang, Shenggao, Luo, Xiaogang, Deng, Hongbing, Liu, Shilin
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.02.2019
Subjects
Biosensor
biosensors
Cellulose
color
crosslinking
glucose
Glucose detection
glucose oxidase
microgels
microparticles
Plasma grafting
starch
Glucose detection
Plasma grafting
Biosensor
Cellulose
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Abstract •GOx was introduced into spider webs structured cellulose microgel.•The mocrogels had colorimetric responsivity to glucose.•The dual-color glucose probe provided an alternative color choice. In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with “signal-and-color” output, in this work, active group carboxyl was introduced to cellulose matrix by using plasma technology, and then glucose oxidase (GOx) was chemically immobilized through EDC-NHS cross-linking reaction. The cellulose microgels containing 21.28 mg/g of enzymes exhibited a fast response to 0.003 M glucose within only 4 min. As for detecting subject with a lower concentration of glucose, the probe still worked. When the concentration of glucose solution was 0.005 M, it took only 2 min that the reaction mixture changed from colorless to yellow. By the introduction of starch, the reaction mixture presented as amaranth color. Besides, the porous-structured substrate and the facile plasma technology were also promising for constructing enzyme-driven catalytic systems with enhanced performance.
AbstractList In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with “signal-and-color” output, in this work, active group carboxyl was introduced to cellulose matrix by using plasma technology, and then glucose oxidase (GOx) was chemically immobilized through EDC-NHS cross-linking reaction. The cellulose microgels containing 21.28 mg/g of enzymes exhibited a fast response to 0.003 M glucose within only 4 min. As for detecting subject with a lower concentration of glucose, the probe still worked. When the concentration of glucose solution was 0.005 M, it took only 2 min that the reaction mixture changed from colorless to yellow. By the introduction of starch, the reaction mixture presented as amaranth color. Besides, the porous-structured substrate and the facile plasma technology were also promising for constructing enzyme-driven catalytic systems with enhanced performance.
•GOx was introduced into spider webs structured cellulose microgel.•The mocrogels had colorimetric responsivity to glucose.•The dual-color glucose probe provided an alternative color choice. In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with “signal-and-color” output, in this work, active group carboxyl was introduced to cellulose matrix by using plasma technology, and then glucose oxidase (GOx) was chemically immobilized through EDC-NHS cross-linking reaction. The cellulose microgels containing 21.28 mg/g of enzymes exhibited a fast response to 0.003 M glucose within only 4 min. As for detecting subject with a lower concentration of glucose, the probe still worked. When the concentration of glucose solution was 0.005 M, it took only 2 min that the reaction mixture changed from colorless to yellow. By the introduction of starch, the reaction mixture presented as amaranth color. Besides, the porous-structured substrate and the facile plasma technology were also promising for constructing enzyme-driven catalytic systems with enhanced performance.
In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with "signal-and-color" output, in this work, active group carboxyl was introduced to cellulose matrix by using plasma technology, and then glucose oxidase (GOx) was chemically immobilized through EDC-NHS cross-linking reaction. The cellulose microgels containing 21.28 mg/g of enzymes exhibited a fast response to 0.003 M glucose within only 4 min. As for detecting subject with a lower concentration of glucose, the probe still worked. When the concentration of glucose solution was 0.005 M, it took only 2 min that the reaction mixture changed from colorless to yellow. By the introduction of starch, the reaction mixture presented as amaranth color. Besides, the porous-structured substrate and the facile plasma technology were also promising for constructing enzyme-driven catalytic systems with enhanced performance.In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with "signal-and-color" output, in this work, active group carboxyl was introduced to cellulose matrix by using plasma technology, and then glucose oxidase (GOx) was chemically immobilized through EDC-NHS cross-linking reaction. The cellulose microgels containing 21.28 mg/g of enzymes exhibited a fast response to 0.003 M glucose within only 4 min. As for detecting subject with a lower concentration of glucose, the probe still worked. When the concentration of glucose solution was 0.005 M, it took only 2 min that the reaction mixture changed from colorless to yellow. By the introduction of starch, the reaction mixture presented as amaranth color. Besides, the porous-structured substrate and the facile plasma technology were also promising for constructing enzyme-driven catalytic systems with enhanced performance.
Author Li, Qi
Deng, Hongbing
Zhang, Li
Li, Wei
Luo, Xiaogang
Liu, Shilin
Wang, Shenggao
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Keywords Glucose detection
Plasma grafting
Biosensor
Cellulose
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Snippet •GOx was introduced into spider webs structured cellulose microgel.•The mocrogels had colorimetric responsivity to glucose.•The dual-color glucose probe...
In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with "signal-and-color" output, in this work, active...
In order to develop a biosensor based on porous structured cellulose microspheres for glucose detection with “signal-and-color” output, in this work, active...
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SubjectTerms Biosensor
biosensors
Cellulose
color
crosslinking
glucose
Glucose detection
glucose oxidase
microgels
microparticles
Plasma grafting
starch
Title Porous structured cellulose microsphere acts as biosensor for glucose detection with “signal-and-color” output
URI https://dx.doi.org/10.1016/j.carbpol.2018.10.084
https://www.ncbi.nlm.nih.gov/pubmed/30446108
https://www.proquest.com/docview/2135123948
https://www.proquest.com/docview/2189521965
Volume 205
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