Antibacterial activity of chitin, chitosan and its oligomers prepared from shrimp shell waste (original) (raw)
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Antibacterial Properties of Chitin from Shell Wastes
In sea food industries shellfish waste management is huge problem. It has increasingly difficult and expensive one. This abundant crap and prawn shell waste material has converted to value added products. Chitin was extracted from shell wastes from black tiger shrimp Penaeus monodon and Crap Portunus pelagicus. Shell wastes were collected from sea food industries. After washing, the process such as demineralization involved treatment with 0.25 M HCl at ambient temperature for 30 min and deprotenization with was carried out to extract chitin which then deacetylated 1.0 M NaoH to get chitosan. Chitin was yielded 33.6 % and 28.3% from Crab portunus pelagicus Shell Prawn penaeus monodon respectively. In case of chitosan, 24.2% from crab shell waste 20.7% for prawn shell was extracted. Both crab and prawn chitosan has a wide spectrum of antibacterial activities against 10 human pathogenic bacteria.
The antibacterial activity of chemically deacetylated chitin i.e. chitosan produced from shrimp shell. The antibacterial activity was tested against gram negative (Escherichia coli) bacteria, and gram positive (staphylococcus aureus) bacteria. To test the antibacterial activity institute of clinical laboratory standards (ICLS) approved dilution methods was used. The study was carried out by broth dilution method and used turbidity estimations to determine the growth characteristics of a bacterial culture with or without chitin or chitosan. Chitosan possess higher antibacterial activity against both types of bacteria, while chitin possess very lower activity. For staphylococcus aureus the average absorbance in every O.D value measured, staphylococcus aureus with chitin showed far higher absorbance than chitosan, indicates lower level of activity of chitin. After 32 hours of incubation s.aureus with medium absorbance was 1.15, while chitosan with s.aureus absorbance recorded 0.32, chitin with s.aureus recorded 0.733. Lower absorbance for chitosan containing E.Coli medium. At the peak point Medium and E.coli absorbance was 1.07, while chitosan with E.coli recorded 0.282 and chitin with E.coli absorbance was found 0.831. The ratio between medium E.coli and chitosan: medium and E.coli=0.26:1, and the ratio of medium S.aureus and chitosan : medium and S.aureus = 0.28:1, indicates G (+Ve) bacteria gives 0.02 times higher absorbance than G (-Ve) bacteria. The between chitin and chitosan, chitosan was found 2.2 times more active than chitin against S.aureus and 3.0 times more active than chitin against E.coli.
Veterinary world, 2017
The present study was performed to utilize the shrimp shell waste for chitin and chitosan production, characterization by Fourier transform infrared (FT-IR) technique and to evaluate the antimicrobial effects of chitosan oligomers produced by depolymerization of chitosan by nitrous acid. Chitosan was extracted from the shrimp shell waste by the chemical method and characterized by FT-IR. Chitooligomers were produced by depolymerising chitosan using nitrous acid, and the chitooligomers were tested for antimicrobial effect against four gut pathogenic organisms, i.e., Enterobacter aerogen (National Collection of Dairy Culture [NCDC] 106), Enterococcus faecalis (NCDC 119), Escherichia coli (NCDC 134), and Staphylococcus aureus (NCDC 109) by well diffusion method using Muller-Hinton agar. A pure culture of pathogenic organisms was collected from NCDC, ICAR-National Dairy Research Institute, Karnal. Extracted chitosan characterized by FT-IR and chitooligomers demonstrated antimicrobial ef...
Production of chitin and chitosan from shrimp shell wastes
Journal of the Bangladesh Agricultural University, 2017
A method was developed for commercial scale production of chitin and chitosan in Bangladesh from marine shrimp, P. monodon and freshwater prawn, M. rosenbergii shell and appendages. Chitin is a macro-molecular linear polymer of anhydro N-acetyl glucosamine (N-Acetyl, 2-Amino 2-Deoxy D-Glucose) and chitosan is deacetylated chitin. For production of chitin, fresh shells of P. monodon having initial bacterial load of >10 5 CFU/g sample and peroxide values of >10 mmol free iodine liberated /kg of oil were washed with dilute sulfuric acid. Adhered proteins were removed by washing with low strength alkaline solution and then rinsed with water. Crude chitin thus prepared was treated with concentrated hydrochloric acid and purified chitin was obtained after treating with low strength alkali solution. Water soluble chitosan was prepared by performing a deacetylation process using 50% NaOH (w/w) at 100 o C for 4-5 hours and then washed, dried and ground. For purification of chitin and chitosan, a series of experiments were conducted to optimize the level of NaOH concentration and time and temperature schedule of demineralization and deproteinization/deacetylation. A high temperature-short time schedule obtained best quality chitin and chitosan. Both subjective and objective methods were used for the testing of quality and purity of chitin and chitosan. Comparative studies between the quality of products from different components of the shell and from different shrimp/prawn species showed that both chitin and chitosan obtained from M. rosenbergii shell were better compared to those of P. monodon in terms of extractability, deacetylation, and color. Shells obtained better product compared to shrimp appendages. The study suggests that chitin and chitosan can be produced in existing shrimp/prawn processing plants of the country with the simple renovation.