Physicochemical and antibacterial properties of chitosan extracted from
swimming crab shells and wooden grasshoppers using different extraction
methods
A. S. Anggraeni, A. Jayanegara, E. B. Laconi, N. R. Kumalasari, A. Windarsih, A. Sofyan
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引用次数: 0
Abstract
Marine by-products and insects are among the sources of chitin used in chitosan
production and increase the value of the product that may be used in the food industry.
The conversion of chitin to chitosan requires proper extraction methods in order to
minimise energy use and waste while also producing good-quality chitosan. This study
aimed to evaluate different methods of extracting chitosan from two sources and to
characterise its physicochemical and antibacterial properties. The study utilised two
distinct chitosan sources, i.e. crab shells and wooden grasshoppers, as well as two distinct
extraction methods, i.e. conventional and green chemistry methods. The yield, water-ash
content, solubility, physicochemical properties as determined by infrared spectroscopy
(FTIR), degree of deacetylation (DD), crystallinity (XRD), microstructure (SEM) and
antibacterial activity were all evaluated for chitosan quality. The results indicated that the
green chemistry extraction of crab shells (M2P1 treatment) produced the highest yield,
solubility and crystallinity index of all treatments, with a DD of 60.9%. The functional
groups and microstructure of chitosan were remarkably similar across all treatments.
Antibacterial activity was determined using the microdilution method against Grampositive (Clostridium acetobutylicum) and Gram-negative (Escherichia coli) bacteria and
the minimum inhibitory concentrations were identified, notably 2000 ppm for the green
chemistry method. The green chemical extraction method using crab shells (M2P1)
demonstrated that the extracted chitosan possessed beneficial physicochemical properties,
especially on yield and solubility, and antimicrobial properties against both Gram-positive
and Gram-negative bacteria. As such, based on the DD percentage and antibacterial
activity, this implies that the extracted chitosan may be used as an alternative for the
preservation of food in the food industry.
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