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Triangulum : germanistisches Jahrbuch f!2uur Estland^ Lettland und Litauen . 2012
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대장직장 종양에 대한 내시경 점막하 절제술의 연대순 임상 결과와 학습 곡선
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맞춤형 반복교육에 따른 구강건강 관리효과
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Impact of CT on Diagnosis and Management of Acute Abdomen in Patients Initially Treated Without Surgery
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Bacterial Cellulose-chitosan Composite Hydrogel Beads for Enzyme Immobilization
김현정,진주남,간은성,김광진,이상현 한국생물공학회 2017 Biotechnology and Bioprocess Engineering Vol.22 No.1
In this work, we report the preparation of bacterial cellulose (BC)-chitosan composite hydrogel beads by co-dissolution of BC and chitosan in 1-ethyl-3- methylimidazolium acetate and subsequent reconstitution with distilled water. The BC-chitosan hydrogel beads were used as enzyme supports for immobilizing Candida rugosa lipase by physical adsorption and covalent cross-linking. BC-chitosan hydrogel beads immobilized lipase more efficiently than microcrystalline cellulose (MCC)-chitosan hydrogel beads. The amount of protein adsorbed onto BCchitosan beads was 3.9 times higher than that adsorbed onto MCC-chitosan beads, and the catalytic activity of lipase was 1.9 times higher on the BC-chitosan beads. The lipase showed the highest thermal and operational stability when covalently cross-linked on BC-chitosan hydrogel beads. The half-life time of the lipase cross-linked on BCchitosan bead at 60°C was 22.7 times higher than that of free lipase. Owing to their inherent biocompatibility and biodegradability, the BC-chitosan composite hydrogel beads described here could be used to immobilize proteins for various biomedical, environmental, and biocatalytic applications.
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