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- 저자 : 손소희 ( Son So Hui ) (검색결과 3 건)
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이소정 ( So Jung Lee ),권소망 ( So Mang Kwon ),마강희 ( Kang Hui Ma ),손소희 ( So Hee Son ),정철의 ( Chul Eui Jung ) 한국토양동물학회 2014 한국토양동물학회지 Vol.18 No.1
Greater attentions are paid to the insect industry (insect farming) especially for the economic, sustainable solution to feed the growing world population following the issue of FAO report of edible forest insect in May 2013. In Korea, legislation of insect industry law provides the funding for the research and development on commercialization of insect farming and processing. Korea has a long history of entomophagy but most for the medicinal purpose not for the dietary needs. This reports the importance of the commercialization of edible insects, current status of R&D and marketing in Europe and Korea, and its possibility of feeding global human population as well as income generation. Also, we suggested some tactics to improve the friendly awareness of entomophagy otherwise easily repelled.
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최혜영 ( Choe Hye Yeong ),김태형 ( Kim Tae Hyeong ),손소희 ( Son So Hui ),공병기 ( Gong Byeong Gi ),최창용 ( Choe Chang Yong ),김동곤 ( Kim Dong Gon ),장미경 ( Jang Mi Gyeong ),노홍균 ( No Hong Gyun ),나재운 ( Na Jae Un ) 한국키틴키토산학회 2004 한국키틴키토산학회지 Vol.9 No.1
본 연구에서는 천연자원으로부터 α-, β- 및 γ-chitin을 분리하였고, 이를 이용하여 α-, β- 및 γ-chitosan을 제조하였다. 원재료의 화학적 조성과 chitin과 chitosan의 일반성분을 분석하였으며 상대점도측정과 Kina 적정법을 이용하여 점도평균분자량과 탈아세틸화도를 측정하였고 FT-IR spectrophotometer, soild state CP/MAS ^(13)C NMR spectrophotometer 에 의해 α-, β- 및 γ-chitin과 chitosan의 제조를 확인하였다. α-, β- 및 γ-chitin의 각각의 분자량이 701, 612 그리고 524 kDa으로 측정되었으며 α-, β-및 γ-chitosan의 분자량이 603, 607, 329 kDa임을 확인하였다. α-, β-및 γ-chitin의 탈아세틸화도가 21.8%, 3?.3% 그리고 44.7%로 확인되었고 α-, β- 및 γ-chitosan의 탈아세틸화도가 97.1%, 99.2%, 그리고 96.6% 임을 확인하였다. Chitin의 FT-IR 스펙트럼에서 amide I에서의 흡수 밴드가 α-chitin에 있어서는 이중선으로, β-chitin에 있어서는 단일선으로 나타났으며 γ-chitin에서는 α-, β-chitin의 중간형태로 나타났음을 확인하였다. Chitosan의 FT-IR 스펙트럼에서 탈아세틸화 반응에 의해 amide Ⅰ과 amide Ⅱ의 흡수 피크가 현저히 감소하였음을 확인하였다. Chitin의 Solide state CP/MAS ^(13)C NMR 스펙트럼결과에서 α-chitin의 경우 C3과 C5의 피크가 각각 73과 75 ppm에서 나타났으며 β-chitin은 74 ppm에서 단일선으로 나타났고, γ-chitin의 경우 C3과 C5의 흡수피크가 α-chitin과 유사한 형태의 피크를 나타내었다. Chitosan의 Soilde state CP/MAS ^(13) NMR 스펙트럼에서 C1~C6가 잘 나타나 있고, 탈아세틸화 반응에 의해 메틸탄소 및 카르보닐 탄소가 거의 나타나지 않았다. α-, β- and γ-chitin were isolated from crab shell, squid pen, beetles cuticles by acid, alkali treatment and α-, β- and γ-chitosan were prepared from α-, β- and γ-chitin. Chemical compositions of raw materials and elemental of chitin and chitosan were analyzed. A weight-average molecular weight and degree of deacetylation (DDA) were determines by viscometry and Kina titration. Its structural characterization was analyzed by FT-IR spectrophotometer and solid state CP/MAS C NMR spectrophotometer. A molecular weight of α-, β- and γ-chitin were determined by viscometer resulting in 701. 612, and 524, kDa, respectively. A molecular weight of α-, β- and γ-chitosan were calculated with 603., 607 and 329 kDa, respectively. The DDA of α-, β- and γ-chitin were 21.8%, 32.3% and 44.7%, respectively. The DDA of α-, β- and γ-chitosan were 97.1%, 99.2% and 96.6%, respectively. At the FT-IR spectra of chitin, α-, β- chitin. And at the FT_IR sectra of chitosan, absorption band of amide I and amide H decreased because of the deacetylation of chitin, where as the absorption band of amine group was newly formed. From solid state CP/MAS C NMR spectra of chitin, two signals appeared at around 73 and 75 ppm assigned to C3 and C5 carbon atoms in α-chitin are sharply resolved, the signals of C3 and C5 in β-chitin shows singlet at around 74 ppm. In case of γ-chitin, two signals show at around 73 and 75 ppm assigned to C3 and C5 carbon atoms. From solid stat CP/MAS C NMR spectra of chitosan, the carbon of the C1-C6 positions were cleared identified and peaks of CH_3 and C=0 decreased significantly because of the deacetylation
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