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Consequences of chemical deacetylation on physicochemical, structural and functional characteristics of chitosan extracted from deep-sea mud shrimp

M.K. Rasweefali, Sarasan Sabu, Kappat Valiyapeediyekkal Sunooj, Abhilash Sasidharan, K.A. Martin Xavier

2021Carbohydrate Polymer Technologies and Applications84 citationsDOIOpen Access PDF

Abstract

Extraction of chitosan from deep-sea mud shrimp ( Solenocera hextii ) shell waste was conducted using a chemical method by altering the deacetylation times. The degree of deacetylation of extracted chitosan were 75.5 ± 0.36, 85 ± 0.38 and 87± 0.32 %, and the molecular weights were 263.95±1.16, 52.61± 0.44, and 5.15± 0.14 kDa respectively for CH-1.5, CH-3, and CH-6. Deacetylation time significantly influenced the structure and physicochemical properties of chitosan. SEM results exposed smooth granular surface structure and XRD peaks obtained were identical with commercial chitosan. Deacetylation time for CH-3 was found optimum for commercial extraction of this natural biopolymer resource. Water binding and fat binding capacities of the extracted deep-sea mud shrimp chitosan were significantly higher than commercial chitosan from coastal shrimp and are suitable for many functional food applications.

Topics & Concepts

ShrimpChitosanExtraction (chemistry)ChemistryChitinAcetylationBiopolymerFood scienceNuclear chemistryFisheryChromatographyOrganic chemistryBiologyBiochemistryPolymerGeneNanocomposite Films for Food Packagingbiodegradable polymer synthesis and propertiesMicroencapsulation and Drying Processes
Consequences of chemical deacetylation on physicochemical, structural and functional characteristics of chitosan extracted from deep-sea mud shrimp | Litcius