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Preparation, Characterization and Activity of a Peptide-Cellulosic Aerogel Protease Sensor from Cotton. | LitMetric

AI Article Synopsis

  • - Nanocellulosic aerogels (NA) are lightweight, biocompatible materials with high porosity and surface area, making them ideal for biosensor applications; the study develops peptide-nanocellulose aerogels (PepNA) for protease detection using unprocessed cotton.
  • - The PepNA was created through a multi-step process involving the dissolution of cotton, shaping, and drying, resulting in aerogels with 99% porosity and a specific surface area of 163 m²·g, which was confirmed by various characterization techniques.
  • - Bioactivity tests showed that PepNA had impressive sensitivity for detecting human neutrophil elastase, a key biomarker for inflammatory diseases, demonstrating

Article Abstract

Nanocellulosic aerogels (NA) provide a lightweight biocompatible material with structural properties, like interconnected high porosity and specific surface area, suitable for biosensor design. We report here the preparation, characterization and activity of peptide-nanocellulose aerogels (PepNA) made from unprocessed cotton and designed with protease detection activity. Low-density cellulosic aerogels were prepared from greige cotton by employing calcium thiocyanate octahydrate/lithium chloride as a direct cellulose dissolving medium. Subsequent casting, coagulation, solvent exchange and supercritical carbon dioxide drying afforded homogeneous cellulose II aerogels of fibrous morphology. The cotton-based aerogel had a porosity of 99% largely dominated by mesopores (2-50 nm) and an internal surface of 163 m²·g. A fluorescent tripeptide-substrate (succinyl-alanine-proline-alanine-4-amino-7-methyl-coumarin) was tethered to NA by (1) esterification of cellulose C6 surface hydroxyl groups with glycidyl-fluorenylmethyloxycarbonyl (FMOC), (2) deprotection and (3) coupling of the immobilized glycine with the tripeptide. Characterization of the NA and PepNA included techniques, such as elemental analysis, mass spectral analysis, attenuated total reflectance infrared imaging, nitrogen adsorption, scanning electron microscopy and bioactivity studies. The degree of substitution of the peptide analog attached to the anhydroglucose units of PepNA was 0.015. The findings from mass spectral analysis and attenuated total reflectance infrared imaging indicated that the peptide substrate was immobilized on to the surface of the NA. Nitrogen adsorption revealed a high specific surface area and a highly porous system, which supports the open porous structure observed from scanning electron microscopy images. Bioactivity studies of PepNA revealed a detection sensitivity of 0.13 units/milliliter for human neutrophil elastase, a diagnostic biomarker for inflammatory diseases. The physical properties of the aerogel are suitable for interfacing with an intelligent protease sequestrant wound dressing.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5134448PMC
http://dx.doi.org/10.3390/s16111789DOI Listing

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