• Title/Summary/Keyword: squid pen chitosan

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Rheological Properties of Chitosan Manufactured from the Pens of Domestic (Todarodes pacificus) and Foreign (Ommastrephes bartrami) Squid (연안산 및 남미산 오징어 연골로부터 제조한 Chitosan의 레올로지 특성)

  • KIM Sang-Moo;PARK Seong-Min;CHOI Hyeon-Mee;LEE Keun-Tai
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.30 no.5
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    • pp.859-867
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    • 1997
  • In order to utilize the processing wastes of squid, chitosans were manufactured from the pens of domestic squid, Todarbdes pacificus and foreign squid, Ommastrephes bartrami and then, its rheological properties were studied. The amounts of nitrogen and minerals of the domestic squid pens were $11.4\%\;and\;0.1\%$ respectively, whereas those of its chitosan were $7.5\%\;and\;0.2\%$. In case of foreign squid pen and chitosan, the amounts of nitrogen and minerals were $12.1\%,\;0.8\%\;and\;7.8\%,\;0.2\%$ respectively. Intrinsic viscosity $([\eta]) $ of domestic and foreign squid pen chitosans were decreased with increasing pH from 3.4 to 5.4 which might be due to the reduced repulsion in inter- of intra- chitosan molecules. Intrinsic viscosity of the domestic and foreign squid pen chitosans were decreased with increasing NaCl concentration thus indicated that the domestic and foreign squid pen chitosans were polyelectrolyte molecules and stiffness of squid pen thitosans were 0.11 similar to that of k-carrageenan. Flow type of squid pen chitosan solutions were pseudoplastic fluids without yield stress by the viscosity measurement. But the squid pen chitosan solutions showed newtonian fluid up to $0.15\~0.24\%$ concentration for domestic and $0.21\~0.24\%$ concentration for foreign at $10\~50\%$. Concentration dependence of consistency index in infinitive dilute domain (Kc) were higher in the dilute domain than entangled domain. Activation energies (Ea) of the squid pen chitosans were 3.7, 6.3, 3.6, 4.0 and 4.1 Kcal/g moi for domestic and 3.2, 3.1, 3.4, 3.8 and 3.6 Kcal/g mol for foreign at 0.1, 0.15, 0.25, 0.35 and $0.5\%$, respectively.

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Chitosan and Acetylchitosan from Squid Pen and Their Characteristics (오징어 연골을 이용한 Chitosan 및 Acetylchitosan의 제조와 특성)

  • CHOI Hyeon-Mee;HWANG Sun-Young;PARK Seong-Min;LEE Keun-Tai
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.34 no.5
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    • pp.563-569
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    • 2001
  • In order to utilize the processing wastes of squid, chitosan was prepared by intermittent deacetylation treaoent of $\beta-chitin$ contained richly in the pen of squid. Acetylchitosan also was synthesized from squid pen chitosan with anhydrous acetic acid and their characteristics were investigated. The amounts of nitrogen and ash of squid pen chitosan were $5.80.2\% and 0.2\pm0.03\%$ respectively, the yield of squid pen chitosan was $25\pm3\%$, the degree of deacetylation was $92\%$, and the molecular weight was $1.15\times10^6$, Acetyl contents of N-acetylchitosan powder, acetylchitosan bead, N-ACF-1 (N-acetylchitosan film-1) and N-ACF-2 (N-acetylchitosan film-2) were $55.9\%, 63.2\%, 56\% and 58.7\%$ respectively. Two major peaks, amide I ($1,653 cm^{-1}$) and II ($1,558 cm^{-1}$) bent, on FT-IR spectra of the N-acetylchitosan from squid pen were almost similar to these of $\beta-chitin$, While there was a broad single peak at $1,601 cm^{-1}$assigned to be an amide I bend in squid pen chitosan. The CP/MAS NMR spectra of $\beta-chitin$, squid pen chitosan and N-acetylchitosan from squid pen showed a relative broad and single peak at 74 ppm assigned to fifth carbon (C-5) and third carbon (C-3). In case of $\beta-chitin$ and N-acetylchitosan from squid pen, single peak at 74 ppm was showed as the same of $\beta-chitin$ type.

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Measurement of Deproteinization and Deacetylation of Chitin and Chitosan by Near Infrared Spectroscopy (근적외선 분광분석법을 이용한 Chitin 및 Chitosan의 탈단백 및 탈아세틸화도 측정)

  • SONG Ho-Su;LEE Keun-Tai;PARK Seong-Min;KANG Ok-Ju;CHEONG Hyo-Sook
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.36 no.2
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    • pp.88-93
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    • 2003
  • NIR spectroscopic analysis was used for the measurement of deproteinization and deacetylation to apply the merits of NIR spectroscopic analysis to the quality management in the process of chitin and chitosan production. In measuring squid pen and red snow crab shell, which are raw materials of chitin and chitosan by NIR there were typical peaks in 1200 nm, 1510 nm, 2050 nm and 2180 nm. Squid pen had somewhat higher peak than red snow crab shell. In producing chitin, amount of protein was decreased. Measuring it by NIR, reduction of protein caused by deproteinization was identified in producing chitin. Chitosan is a derivative material made from chitin by processing the deacetylation. During this processing, acetyl groups were removed and amide bends were appeared. From NIR spectra, peaks at 1530 nm and 2030 nm indicated amide II peak of chitosan, and these peaks were used for identifying the differences of structure between chitin and chitosan. The error in measurement of nonidentified sample was below $1\%$ and the error in the standard curve was below 0.006. These errors were very low and the accuracy of NIR was considered to be superior to the existing methods.

Chitosan and N-acetylchitosan film from Squid Pen and Their Characteristics (오징어 연골을 이용한 Chitosan 및 N-acetylchitosan film의 제조 및 특성)

  • CHOI Hyeon-Mee;LEE Keun-Tai
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.33 no.4
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    • pp.356-360
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    • 2000
  • In order to utilize the processing wastes of squid, chitosan was prepared by intermittent deacetylation treatment of ${\beta}-chitin$ richly contained in the pen of squid, and then their characteristics of chitosan and N-acetylchitosan film were studied. The acetylation time of N-acetylchitosan film-1 (N-ACE-1) manufactured from chitosan solution by treating with acetic anhydride was about 12 hrs. In SEM photomicrographs, the surface of chitosan film was regularly arranged netlike, and that of N-acetylchitosan film-2 (N-ACE-2) was rough like snowflake and larger than chitosan film. The chitosan film (thickness 0.02 mm, time 60 min) had the highest tensile strength ($1,240 kg/cm^2$) and elongation ($58.25{\%}$), N-ACP-1 (thickness 0.02 mm, time 60 min) had the highest water permeability ($539 g/m^2{\cdot}24 hrs$), oxygen permeability ($20,000 cm^3/m^2{\cdot}24 hrs{\cdot}atm$) and water uptake ($350{\%}$) among the tested films.

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Effects of Carboxymethyl Chitosan on Yield and Whey Protein Loss in Cottage Cheese

  • Kim, Kyung-Tae;Kang, Ok-Ju
    • Preventive Nutrition and Food Science
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    • v.10 no.3
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    • pp.231-238
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    • 2005
  • A standard $1\%$ w/v solution of CM-chitosan made from squid pen was added to milk at levels of $0.5\sim3\%$ (v/v) to improve the yield and rheological properties of cottage cheese by whey protein retention. Cheese curd did not form at levels higher than $3\%$ (v/v) CM-chitosan standard solution. Yield and total protein of cottage cheese increased up to $2\%\;by\;11\;to\;42\%\;and\;17\;to\;38\%$ respectively, compared to control cheese. Whey protein losses were decreased by 11 to $42\%$ and thus accounted for all of the increase in yield. Anomalous results were obtained at the $0.8\%$ level, which neither improved yield or whey protein retention nor stabilized rheological parameters, and at the $0.5\%$ level, which improved yield and total protein without increasing whey protein retention. Elasticity and cohesiveness of CM-chitosan-containing cheese were generally improved and stabilized during storage. Monitoring of cheese chromaticity values for four weeks revealed a delay in the onset of yellowing in cheeses with CM-chitosan compared to the controls, while the concentration of added CM-chitosan had little influence on cheese chromaticity. The addition of CM-chitosan solution could be applied directly to industrial scale cottage cheese-making without the need for any modification of the production process.

Application of Chitosan as an Adsorbent of Dyes in Wastewater from Dyeworks (염색 폐수의 흡착 정화를 위한 키토산의 응용)

  • Cho, Yoo-Young;La, Yong-Gyun;Kim, Chong-Sam;Park, Ro-Dong
    • Applied Biological Chemistry
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    • v.38 no.5
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    • pp.452-454
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    • 1995
  • Chitin and chitosan from red crab and squid pen were applied as adsorbents for trapping the dyes in wastewater from dyeworks. We found that the chitin and chitosan were effective adsorbents for the dyes discarded from dyeworks. Chitosan was more effective in dye adsorption than chitin. In a continuous elution column experiment, 1 kg of chitosan could be used for treatment of upto 120 L of wastewater containing 0.05% dye wasted from dyeworks at 75% efficacy, that means 45g dye was adsorbed per kg chitosan.

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