2015
DOI: 10.1016/j.foodchem.2015.03.009
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Core–shell biopolymer nanoparticle delivery systems: Synthesis and characterization of curcumin fortified zein–pectin nanoparticles

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Cited by 403 publications
(154 citation statements)
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“…Higher loading of Cur on GP was achieved as compared to other recently reported delivery cargos2425262728293031 (Supplementary Table S3). Even by utilizing GO, only 208 wt.% was obtained24 achieving only half of the loading capacity as compared to our current approach.…”
Section: Resultsmentioning
confidence: 76%
“…Higher loading of Cur on GP was achieved as compared to other recently reported delivery cargos2425262728293031 (Supplementary Table S3). Even by utilizing GO, only 208 wt.% was obtained24 achieving only half of the loading capacity as compared to our current approach.…”
Section: Resultsmentioning
confidence: 76%
“…However, their stability can be improved by coating them with emulsifiers after formation, such as sodium caseinate (Davidov‐Pardo et al., ; Patel, Bouwens, & Velikov, ), β‐Lg (Chen et al., ), or Tween 20 (Hu & McClements, ), so as to cover hydrophobic patches and generate electrostatic and steric repulsion. Alternatively, they can be protected from aggregation by adsorbing ionic polysaccharides to their surfaces, such as pectin (Hu et al., ) or alginate (Hu & McClements, ), to increase the electrostatic and steric repulsion between them.…”
Section: Protein‐based Encapsulating Materialsmentioning
confidence: 99%
“…The core‐shell NPs fortified with curcumin (a hydrophobic bioactive molecule) using a hydrophobic protein (zein) as the core and a hydrophilic polysaccharide (pectin) as the shell were prepared by Hu et al The decoration of NPs with various types of biomolecules including proteins, enzymes and oligopeptides, antibody and antigens, biotin/streptavidin system, and DNA/oligonucleotides/aptamers to form noble metal nanoparticle – biomolecule can contribute to their efficiency. Furthermore, the high content of functional groups, including hydroxyl, amino, and carboxylic acid in bionanogels is utilized in crosslinking with additional functional crosslinkers and, for further bioconjugation with cell targeting agents…”
Section: Biopolymer Nanoparticlesmentioning
confidence: 99%