Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation

Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation

Abstract Chia (Salvia hispanica) and basil (Ocimum basilicum) seeds have the intrinsic ability to form a hydrogel concomitant with moisture-retention, slow releasing capability and proposed health benefits such as curbing diabetes and obesity by delaying digestion process. However, the underlying mo...

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Main Authors: Malick Samateh, Neethu Pottackal, Setareh Manafirasi, Adiyala Vidyasagar, Charles Maldarelli, George John
Format: Article
Language:English
Published: Nature Publishing Group 2018-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-018-25691-3
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spelling doaj-ed5d2f672c54406881af04d0dee7fc042020-12-08T05:36:42ZengNature Publishing GroupScientific Reports2045-23222018-05-01811810.1038/s41598-018-25691-3Unravelling the secret of seed-based gels in water: the nanoscale 3D network formationMalick Samateh0Neethu Pottackal1Setareh Manafirasi2Adiyala Vidyasagar3Charles Maldarelli4George John5Department of Chemistry and Biochemistry & Center for Discovery and Innovation (CDI), The City College of New YorkDepartment of Chemistry and Biochemistry & Center for Discovery and Innovation (CDI), The City College of New YorkDepartment of Chemical Engineering, The City College of New YorkDepartment of Chemistry and Biochemistry & Center for Discovery and Innovation (CDI), The City College of New YorkDepartment of Chemical Engineering, The City College of New YorkDepartment of Chemistry and Biochemistry & Center for Discovery and Innovation (CDI), The City College of New YorkAbstract Chia (Salvia hispanica) and basil (Ocimum basilicum) seeds have the intrinsic ability to form a hydrogel concomitant with moisture-retention, slow releasing capability and proposed health benefits such as curbing diabetes and obesity by delaying digestion process. However, the underlying mode of gelation at nanoscopic level is not clearly explained or explored. The present study elucidates and corroborates the hypothesis that the gelling behavior of such seeds is due to their nanoscale 3D-network formation. The preliminary study revealed the influence of several conditions like polarity, pH and hydrophilicity/hydrophobicity on fiber extrusion from the seeds which leads to gelation. Optical microscopic analysis clearly demonstrated bundles of fibers emanating from the seed coat while in contact with water, and live growth of fibers to form 3D network. Scanning electron microscope (SEM) and transmission electron microscope (TEM) studies confirmed 3D network formation with fiber diameters ranging from 20 to 50 nm.https://doi.org/10.1038/s41598-018-25691-3
collection DOAJ
language English
format Article
sources DOAJ
author Malick Samateh
Neethu Pottackal
Setareh Manafirasi
Adiyala Vidyasagar
Charles Maldarelli
George John
spellingShingle Malick Samateh
Neethu Pottackal
Setareh Manafirasi
Adiyala Vidyasagar
Charles Maldarelli
George John
Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation
Scientific Reports
author_facet Malick Samateh
Neethu Pottackal
Setareh Manafirasi
Adiyala Vidyasagar
Charles Maldarelli
George John
author_sort Malick Samateh
title Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation
title_short Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation
title_full Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation
title_fullStr Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation
title_full_unstemmed Unravelling the secret of seed-based gels in water: the nanoscale 3D network formation
title_sort unravelling the secret of seed-based gels in water: the nanoscale 3d network formation
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-05-01
description Abstract Chia (Salvia hispanica) and basil (Ocimum basilicum) seeds have the intrinsic ability to form a hydrogel concomitant with moisture-retention, slow releasing capability and proposed health benefits such as curbing diabetes and obesity by delaying digestion process. However, the underlying mode of gelation at nanoscopic level is not clearly explained or explored. The present study elucidates and corroborates the hypothesis that the gelling behavior of such seeds is due to their nanoscale 3D-network formation. The preliminary study revealed the influence of several conditions like polarity, pH and hydrophilicity/hydrophobicity on fiber extrusion from the seeds which leads to gelation. Optical microscopic analysis clearly demonstrated bundles of fibers emanating from the seed coat while in contact with water, and live growth of fibers to form 3D network. Scanning electron microscope (SEM) and transmission electron microscope (TEM) studies confirmed 3D network formation with fiber diameters ranging from 20 to 50 nm.
url https://doi.org/10.1038/s41598-018-25691-3
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