Chitin/chitosan: modifications and their unlimited application potential—an overview

Use of natural biopolymers for diversified applications in life sciences has several advantages, such as availability from replenishable agricultural or marine food resources, biocompatibility, biodegradability, therefore leading to ecological safety and the possibility of preparing a variety of che...

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Published inTrends in food science & technology Vol. 18; no. 3; pp. 117 - 131
Main Authors Harish Prashanth, K.V., Tharanathan, R.N.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.03.2007
Elsevier
Subjects
acylation
agricultural wastes
biodegradability
Biological and medical sciences
biopolymers
cellulose
chitin
chitosan
Crustacea
Food industries
food processing wastes
Fundamental and applied biological sciences. Psychology
Marine
natural additives
packaging materials
pectins
starch
therapeutics
waste utilization
Modification
Chitin
Chitosan
Application
Online AccessGet full text
ISSN0924-2244
1879-3053
DOI10.1016/j.tifs.2006.10.022

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Abstract Use of natural biopolymers for diversified applications in life sciences has several advantages, such as availability from replenishable agricultural or marine food resources, biocompatibility, biodegradability, therefore leading to ecological safety and the possibility of preparing a variety of chemically or enzymatically modified derivatives for specific end uses. Polysaccharides, as a class of natural macromolecules, have the tendency to be extremely bioactive, and are generally derived from agricultural feedstock or crustacean shell wastes. Cellulose, starch, pectin, etc. are the biopolymers derived from the former while chitin and chitosan are obtained from the latter. In terms of availability, chitin is next to cellulose, available to the extent of over 10 gigatons annually. The application potential of chitosan, a deacetylated derivative of chitin, is multidimensional, such as in food and nutrition, biotechnology, material science, drugs and pharmaceuticals, agriculture and environmental protection, and recently in gene therapy too. The net cationicity as well as the presence of multiple reactive functional groups in the molecule make chitosan a sought-after biomolecule. The latter offers scope for manipulation for preparing a broad spectrum of derivatives for specific end use applications in diversified areas. The biomedical and therapeutic significance of chitin/chitosan derivatives is a subject of significant concern to many all over the world. An attempt is made in this overview to consolidate some of the recent findings on the biorelated application potential of chitosan and its derivatives.
AbstractList Use of natural biopolymers for diversified applications in life sciences has several advantages, such as availability from replenishable agricultural or marine food resources, biocompatibility, biodegradability, therefore leading to ecological safety and the possibility of preparing a variety of chemically or enzymatically modified derivatives for specific end uses. Polysaccharides, as a class of natural macromolecules, have the tendency to be extremely bioactive, and are generally derived from agricultural feedstock or crustacean shell wastes. Cellulose, starch, pectin, etc. are the biopolymers derived from the former while chitin and chitosan are obtained from the latter. In terms of availability, chitin is next to cellulose, available to the extent of over 10 gigatons annually. The application potential of chitosan, a deacetylated derivative of chitin, is multidimensional, such as in food and nutrition, biotechnology, material science, drugs and pharmaceuticals, agriculture and environmental protection, and recently in gene therapy too. The net cationicity as well as the presence of multiple reactive functional groups in the molecule make chitosan a sought-after biomolecule. The latter offers scope for manipulation for preparing a broad spectrum of derivatives for specific end use applications in diversified areas. The biomedical and therapeutic significance of chitin/chitosan derivatives is a subject of significant concern to many all over the world. An attempt is made in this overview to consolidate some of the recent findings on the biorelated application potential of chitosan and its derivatives.
Use of natural biopolymers for diversified applications in life sciences has several advantages, such as availability from replenishable agricultural or marine food resources, biocompatibility, biodegradability, therefore leading to ecological safety and the possibility of preparing a variety of chemically or enzymatically modified derivatives for specific end uses. Polysaccharides, as a class of natural macromolecules, have the tendency to be extremely bioactive, and are generally derived from agricultural feedstock or crustacean shell wastes. Cellulose, starch, pectin, etc. are the biopolymers derived from the former while chitin and chitosan are obtained from the latter. In terms of availability, chitin is next to cellulose, available to the extent of over 10 gigatons annually. The application potential of chitosan, a deacetylated derivative of chitin, is multidimensional, such as in food and nutrition, biotechnology, material science, drugs and pharmaceuticals, agriculture and environmental protection, and recently in gene therapy too. The net cationicity as well as the presence of multiple reactive functional groups in the molecule make chitosan a sought-after biomolecule. The latter offers scope for manipulation for preparing a broad spectrum of derivatives for specific end use applications in diversified areas. The biomedical and therapeutic significance of chitin/chitosan derivatives is a subject of significant concern to many all over the world. An attempt is made in this overview to consolidate some of the recent findings on the biorelated application potential of chitosan and its derivatives.
Author Tharanathan, R.N.
Harish Prashanth, K.V.
Author_xml – sequence: 1
  givenname: K.V.
  surname: Harish Prashanth
  fullname: Harish Prashanth, K.V.
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  givenname: R.N.
  surname: Tharanathan
  fullname: Tharanathan, R.N.
  email: tharanathan@yahoo.co.uk
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Snippet Use of natural biopolymers for diversified applications in life sciences has several advantages, such as availability from replenishable agricultural or marine...
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SubjectTerms acylation
agricultural wastes
biodegradability
Biological and medical sciences
biopolymers
cellulose
chitin
chitosan
Crustacea
Food industries
food processing wastes
Fundamental and applied biological sciences. Psychology
Marine
natural additives
packaging materials
pectins
starch
therapeutics
waste utilization
Title Chitin/chitosan: modifications and their unlimited application potential—an overview
URI https://dx.doi.org/10.1016/j.tifs.2006.10.022
https://www.proquest.com/docview/19587891
https://www.proquest.com/docview/47347350
Volume 18
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