Covalent attachment of lysozyme to cotton/cellulose materials: protein verses solid support activation

Edwards, J. Vincent; Prevost, Nicolette; Condon, Brian; French, Alfred D.

doi:10.1007/s10570-011-9563-6

Cited by 37 publications

(28 citation statements)

References 38 publications

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“…Previously the attachment of lysozyme to cotton (Edwards et al 2000) and wool (Wang et al 2009;Hu et al 2008) fabrics has been presented as a model for developing antimicrobial textile materials with selective activity. Cotton is absorbent, hypoallergenic, and eco-friendly, and enzyme-linked cotton has potential uses as a selective biomedical or hygienic material (Edwards et al 2011b). This paper examines nanocrystalline cotton conjugates of lysozyme with two distinct cellulose crystal structures (cellulose I and cellulose II) and the observed antimicrobial activity.…”

Section: Introductionmentioning

confidence: 99%

Immobilization of lysozyme-cellulose amide-linked conjugates on cellulose I and II cotton nanocrystalline preparations

et al. 2011

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Lysozyme was attached through an amide linkage between some of the protein's aspartate and glutamate residues to amino-glycine-cellulose, which was prepared by esterification of glycine to preparations of cotton nanocrystals. The nanocrystalline preparations were produced through acid hydrolysis and mechanical breakage of the cotton fibers from a scoured and bleached cotton fabric and a scoured and bleached, mercerized fabric, which was shown to produce cellulose I (NCI) and cellulose II (NCII) crystals respectively. A carbodiimide-activation coupling reaction was used to create the lysozyme-aminoglycine-cellulose conjugates using both NCI and NCII in a polar solvent and gave yields of covalently linked lysozyme at 604 mg/gram of cotton nanocrystal. The incorporation of lysozyme conjugated to the NCI and NCII preparations gave very high activity (1,500 U/mg cotton) when assessed using a fluorescence tag assay to measure antimicrobial activity against Micrococcus lysodeikticus. Scanning electron micrographs demonstrated an aggregation of nanoparticles corresponding to lysozyme bound on the surface of larger cotton nanocrystalline sheets. The approach of producing high enzyme activity on cotton nanocrystals is discussed in the context of selectively presenting robust hydrolase activity on nanocrystalline surfaces.

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Section: Introductionmentioning

confidence: 99%

Immobilization of lysozyme-cellulose amide-linked conjugates on cellulose I and II cotton nanocrystalline preparations

et al. 2011

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“…For its modification, 10 ml of nanocellulose at a concentration of 500 lg/ml was added to 5 ml of 5 % APTES (v/v), incubated for 30 min at 100°C (Edwards et al 2011). Then, APTES-modified nanocellulose was centrifuged at 5,000 rpm for 5 min and Cellulose washed with DW.…”

Section: Modification Of Nanocellulose By Aptes and Conjugation With mentioning

confidence: 99%

Nanocellulose conjugated with retinoic acid: its capability to adsorb aflatoxin B1

et al. 2014

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The main aim of this study was to evaluate the adsorption of aflatoxin B1 by nanocellulose conjugated with retinoic acid (NCRA). First, aflatoxin B1 and NCRA were modeled in the Hyperchem software, and then the adsorption of aflatoxin B1 was simulated by the molecular dynamics technique. Second, nanocellulose was synthesized and conjugated with retinoic acid by cross-linker. Third, the adsorption of aflatoxin B1 and NCRA and its release were evaluated at different conditions. Fourth, its adsorption was evaluated in different foodstuffs. Sixth, its toxicity was evaluated on mouse esophageal cells (MECs). Computer-based simulation showed the adsorption of aflatoxin B1 by NCRA. This study showed that the adsorption and release were less affected by temperature and incubation time but highly affected by pH and concentration. Moreover, it was found that NCRA could adsorb aflatoxin B1 in different foodstuffs. Importantly, NCRA had no remarkable toxicity on the MECs.

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“…Unlike aldehydes, carbodiimides are “zero‐length” cross‐linkers, meaning they do not add additional atoms between the two conjugated molecules. This process has been utilized to produce stable collagen matrices (Park, Lee, Lee, & Suh, ), and protein‐based nanoparticles (Niknejad & Mahmoudzadeh, ), crystals (Hartje et al, ), and macrocomplexes (Lepvrier, Doigneaux, Moullintraffort, Nazabal, & Garnier, ), as well as to conjugate enzymes to cellulose‐based materials (Edwards, Prevost, Condon, Sethumadhavan, et al, ; Edwards, Prevost, Condon, & French, ; Edwards, Prevost, Condon, French, & Wu, ). 1‐Ethyl‐3‐(3‐dimethylaminopropyl)‐carbodiimide (EDC) is the most commonly used carbodiimide agent for protein conjugation, primarily due to its solubility in aqueous solutions.…”

Section: Protein Crystalsmentioning

confidence: 99%

Protein crystal based materials for nanoscale applications in medicine and biotechnology

Hartje

Snow

2018

WIREs Nanomed Nanobiotechnol

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The porosity, order, biocompatibility, and chirality of protein crystals has motivated interest from diverse research domains including materials science, biotechnology, and medicine. Porous protein crystals have the unusual potential to organize guest molecules within highly ordered scaffolds, enabling applications ranging from biotemplating and catalysis to biosensing and drug delivery. Significant research has therefore been directed toward characterizing protein crystal materials in hopes of optimizing crystallization, scaffold stability, and application efficacy. In this overview article, we describe recent progress in the field of protein crystal materials with special attention given to applications in nanomedicine and nanobiotechnology.

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Covalent attachment of lysozyme to cotton/cellulose materials: protein verses solid support activation

Cited by 37 publications

References 38 publications

Immobilization of lysozyme-cellulose amide-linked conjugates on cellulose I and II cotton nanocrystalline preparations

Immobilization of lysozyme-cellulose amide-linked conjugates on cellulose I and II cotton nanocrystalline preparations

Nanocellulose conjugated with retinoic acid: its capability to adsorb aflatoxin B1

Protein crystal based materials for nanoscale applications in medicine and biotechnology

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