Assembly of nitroreductase and layered double hydroxides toward functional biohybrid materials

Nitroreductase@Layered Double Hydroxide biohybrids were successfully prepared and tested toward the mesotrione biotransformation and detection. [Display omitted] The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as...

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Published in	Journal of colloid and interface science Vol. 533; pp. 71 - 81
Main Authors	Bruna, Felipe, Mousty, Christine, Besse-Hoggan, Pascale, Batisson, Isabelle, Prevot, Vanessa
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.01.2019 Elsevier
Subjects	Adsorption Bacillus megaterium Bacillus megaterium - enzymology Biocatalysis Biocompatible Materials - chemistry Biocompatible Materials - metabolism Biohybrid materials Biomolecules biotechnology Carbon - chemistry catalytic activity Chemical Sciences coprecipitation Electrodes Enzyme immobilization enzymes glassy carbon electrode green chemistry Humans hydroxides Hydroxides - chemistry Hydroxides - metabolism Layered double hydroxides Material chemistry Mesotrione Molecular Structure nitro compounds Nitroreductase Nitroreductases - chemistry Nitroreductases - metabolism Particle Size philosophy Surface Properties Biomolecules Enzyme immobilization Biohybrid materials Mesotrione Nitroreductase Layered double hydroxides
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Abstract	Nitroreductase@Layered Double Hydroxide biohybrids were successfully prepared and tested toward the mesotrione biotransformation and detection. [Display omitted] The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as easily removable and robust inorganic supports that allow their use and reuse, is a subject of ongoing attention. In this work, the nitroreductase NfrA2/YncD (NR) from Bacillus megaterium Mes11 strain was successfully immobilized by adsorption and coprecipitation on layered double hydroxide (LDH) materials with different compositions (MgAl-LDH and ZnAl-LDH), particle sizes and morphologies, and using different enzyme/LDH mass ratios (Q). The materials were characterized and the immobilization and catalytic performance of the biohybrids were studied and optimized. The nitroreductase-immobilized on the nanosized MgAl-LDH displayed the best catalytic performance with 42–46% of catalytic retention and>80% of immobilization yield at saturation values of enzyme loading Cs ≈ 0.6 g NR/g LDH (Q = 0.8). The adsorption process displayed high enzyme-LDH affinity interactions yielding to a stable biohybrid material. The increase in the amount of enzyme loading favoured the catalytic performance of the biohybrid due to the better preservation of the native conformation. The biohybrid was reused several times with partial activity retention after 4 cycles. In addition, the biohybrid was successfully dried maintaining the catalytic activity for several weeks when it was stored in its dry form. Finally, thin films of NR@LDH biohybrid deposited on glassy carbon electrodes were evaluated as a modified electrode applied for nitro-compound detection. The results show that these biohybrids can be used in biotechnology applications to efficiently detect compounds such as dinitrotoluene. The search for new non-hazardous chemical designs preventing or reducing the use of aggressive chemical processes for human being and the environment is the common philosophy within sustainable chemistry.
AbstractList	The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as easily removable and robust inorganic supports that allow their use and reuse, is a subject of ongoing attention. In this work, the nitroreductase NfrA2/YncD (NR) from Bacillus megaterium Mes11 strain was successfully immobilized by adsorption and coprecipitation on layered double hydroxide (LDH) materials with different compositions (MgAl-LDH and ZnAl-LDH), particle sizes and morphologies, and using different enzyme/LDH mass ratios (Q). The materials were characterized and the immobilization and catalytic performance of the biohybrids were studied and optimized. The nitroreductase-immobilized on the nanosized MgAl-LDH displayed the best catalytic performance with 42-46% of catalytic retention and>80% of immobilization yield at saturation values of enzyme loading Cs ≈ 0.6 g NR/g LDH (Q = 0.8). The adsorption process displayed high enzyme-LDH affinity interactions yielding to a stable biohybrid material. The increase in the amount of enzyme loading favoured the catalytic performance of the biohybrid due to the better preservation of the native conformation. The biohybrid was reused several times with partial activity retention after 4 cycles. In addition, the biohybrid was successfully dried maintaining the catalytic activity for several weeks when it was stored in its dry form. Finally, thin films of NR@LDH biohybrid deposited on glassy carbon electrodes were evaluated as a modified electrode applied for nitro-compound detection. The results show that these biohybrids can be used in biotechnology applications to efficiently detect compounds such as dinitrotoluene. The search for new non-hazardous chemical designs preventing or reducing the use of aggressive chemical processes for human being and the environment is the common philosophy within sustainable chemistry.The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as easily removable and robust inorganic supports that allow their use and reuse, is a subject of ongoing attention. In this work, the nitroreductase NfrA2/YncD (NR) from Bacillus megaterium Mes11 strain was successfully immobilized by adsorption and coprecipitation on layered double hydroxide (LDH) materials with different compositions (MgAl-LDH and ZnAl-LDH), particle sizes and morphologies, and using different enzyme/LDH mass ratios (Q). The materials were characterized and the immobilization and catalytic performance of the biohybrids were studied and optimized. The nitroreductase-immobilized on the nanosized MgAl-LDH displayed the best catalytic performance with 42-46% of catalytic retention and>80% of immobilization yield at saturation values of enzyme loading Cs ≈ 0.6 g NR/g LDH (Q = 0.8). The adsorption process displayed high enzyme-LDH affinity interactions yielding to a stable biohybrid material. The increase in the amount of enzyme loading favoured the catalytic performance of the biohybrid due to the better preservation of the native conformation. The biohybrid was reused several times with partial activity retention after 4 cycles. In addition, the biohybrid was successfully dried maintaining the catalytic activity for several weeks when it was stored in its dry form. Finally, thin films of NR@LDH biohybrid deposited on glassy carbon electrodes were evaluated as a modified electrode applied for nitro-compound detection. The results show that these biohybrids can be used in biotechnology applications to efficiently detect compounds such as dinitrotoluene. The search for new non-hazardous chemical designs preventing or reducing the use of aggressive chemical processes for human being and the environment is the common philosophy within sustainable chemistry. The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as easily removable and robust inorganic supports that allow their use and reuse, is a subject of ongoing attention. In this work, the nitroreductase NfrA2/YncD (NR) from Bacillus megaterium Mes11 strain was successfully immobilized by adsorption and coprecipitation on layered double hydroxide (LDH) materials with different compositions (MgAl-LDH and ZnAl-LDH), particle sizes and morphologies, and using different enzyme/LDH mass ratios (Q). The materials were characterized and the immobilization and catalytic performance of the biohybrids were studied and optimized. The nitroreductase-immobilized on the nanosized MgAl-LDH displayed the best catalytic performance with 42–46% of catalytic retention and>80% of immobilization yield at saturation values of enzyme loading Cs ≈ 0.6 g NR/g LDH (Q = 0.8). The adsorption process displayed high enzyme-LDH affinity interactions yielding to a stable biohybrid material. The increase in the amount of enzyme loading favoured the catalytic performance of the biohybrid due to the better preservation of the native conformation. The biohybrid was reused several times with partial activity retention after 4 cycles. In addition, the biohybrid was successfully dried maintaining the catalytic activity for several weeks when it was stored in its dry form. Finally, thin films of NR@LDH biohybrid deposited on glassy carbon electrodes were evaluated as a modified electrode applied for nitro-compound detection. The results show that these biohybrids can be used in biotechnology applications to efficiently detect compounds such as dinitrotoluene. The search for new non-hazardous chemical designs preventing or reducing the use of aggressive chemical processes for human being and the environment is the common philosophy within sustainable chemistry. Nitroreductase@Layered Double Hydroxide biohybrids were successfully prepared and tested toward the mesotrione biotransformation and detection. [Display omitted] The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as easily removable and robust inorganic supports that allow their use and reuse, is a subject of ongoing attention. In this work, the nitroreductase NfrA2/YncD (NR) from Bacillus megaterium Mes11 strain was successfully immobilized by adsorption and coprecipitation on layered double hydroxide (LDH) materials with different compositions (MgAl-LDH and ZnAl-LDH), particle sizes and morphologies, and using different enzyme/LDH mass ratios (Q). The materials were characterized and the immobilization and catalytic performance of the biohybrids were studied and optimized. The nitroreductase-immobilized on the nanosized MgAl-LDH displayed the best catalytic performance with 42–46% of catalytic retention and>80% of immobilization yield at saturation values of enzyme loading Cs ≈ 0.6 g NR/g LDH (Q = 0.8). The adsorption process displayed high enzyme-LDH affinity interactions yielding to a stable biohybrid material. The increase in the amount of enzyme loading favoured the catalytic performance of the biohybrid due to the better preservation of the native conformation. The biohybrid was reused several times with partial activity retention after 4 cycles. In addition, the biohybrid was successfully dried maintaining the catalytic activity for several weeks when it was stored in its dry form. Finally, thin films of NR@LDH biohybrid deposited on glassy carbon electrodes were evaluated as a modified electrode applied for nitro-compound detection. The results show that these biohybrids can be used in biotechnology applications to efficiently detect compounds such as dinitrotoluene. The search for new non-hazardous chemical designs preventing or reducing the use of aggressive chemical processes for human being and the environment is the common philosophy within sustainable chemistry.
Author	Bruna, Felipe Batisson, Isabelle Besse-Hoggan, Pascale Mousty, Christine Prevot, Vanessa
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Copyright	2018 Elsevier Inc. Copyright © 2018 Elsevier Inc. All rights reserved. Distributed under a Creative Commons Attribution 4.0 International License
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Keywords	Biomolecules Enzyme immobilization Biohybrid materials Mesotrione Nitroreductase Layered double hydroxides
Language	English
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Snippet	Nitroreductase@Layered Double Hydroxide biohybrids were successfully prepared and tested toward the mesotrione biotransformation and detection. [Display... The development of new multifunctional materials integrating catalytically active and selective biomolecules, such as enzymes, as well as easily removable and...
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SubjectTerms	Adsorption Bacillus megaterium Bacillus megaterium - enzymology Biocatalysis Biocompatible Materials - chemistry Biocompatible Materials - metabolism Biohybrid materials Biomolecules biotechnology Carbon - chemistry catalytic activity Chemical Sciences coprecipitation Electrodes Enzyme immobilization enzymes glassy carbon electrode green chemistry Humans hydroxides Hydroxides - chemistry Hydroxides - metabolism Layered double hydroxides Material chemistry Mesotrione Molecular Structure nitro compounds Nitroreductase Nitroreductases - chemistry Nitroreductases - metabolism Particle Size philosophy Surface Properties
Title	Assembly of nitroreductase and layered double hydroxides toward functional biohybrid materials
URI	https://dx.doi.org/10.1016/j.jcis.2018.07.126 https://www.ncbi.nlm.nih.gov/pubmed/30145442 https://www.proquest.com/docview/2094414568 https://www.proquest.com/docview/2116923683 https://hal.science/hal-02175355
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