펄프종이기술 (Journal of Korea Technical Association of The Pulp and Paper Industry)

한국펄프종이공학회 (Korea Technical Association of the Pulp and Paper Industry)
권호 표지

카르복시메틸화 RMP를 이용한 효소 고정화시트의 제조

Manufacturing of Enzyme Immobilized Sheet Using Carboxymethylated RMP Substrate

  • 조남석 (충북대학교 산림과학부)
  • 발행 : 2003.06.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

This study was performed to develop the new type enzyme immobilization sheet from carboxymethylated refiner mechanical pulp (CRMP) substrate. Enzyme immobilization was attempted to couple carboxyl groups of CRMP with amino groups of the enzyme, trypsin, through the reaction of carbodiimide reagent, 1-ethyl-3-(3-dimethyl aminopropyl)-carbodimide (EDC ). Immobilization carrier, water insoluble CRMP fraction (CRMP-IS), was successfully reacted with the enzyme, formed peptide linkage like -CONH- at 1680$cm^{-1}$ / and new ester linkage like -COO$CH_3$, methylester at 1735$cm^{-1}$ /, and produced enzyme immobilized substrate (CRMP-IST). The enzyme immobilized handsheet was prepared by mixing the above chelated enzyme immobilized substrate(CRMP-IST) with kraft pulp by paper sheet machine like papermaking process. The sheet weight and strength were increased with increasing dosage of CRMP-IST, and decreased at more than 10% mixing of CRMP-IST, but higher than the controls. Concerning activities of immobilized trypsin(CRMP-IST) sheet by caseinolysis, the teared-off sheet with shaking was shown higher enzyme activities than sheet shape without shaking. In conclusion, this enzyme immobilized sheet would be expected easy handling for practical application and reutilization.

키워드

참고문헌

  1. Sen-Ⅰ Gakkaishi v.30 no.5;6 Carboxymethylation of cotton fabrics by one step method Fujimoto,R.;Wakasaki,W.;M.Hosono;Tsuji,W.
  2. Svensk Papperstidn v.8 Interfiber bonding by partial carboxymethylation of pulp Alince,B.
  3. Methods in Carbohydrate Chemistry v.Ⅲ Carboxymethyl Cellulose Green,J.W.
  4. Methane Generation by Anaerobic Fermentation Freeman,C.;L.Pyle
  5. Cellulose, Structural and Functional Aspect Liquid crystalline properties of phenylacetoxy- and trimethylsilyl-cellulose Kim,S.K.;Hong,S.I.;Kang,T.J.
  6. Chemistry of Organic Resources Okamura,K.
  7. Chemical Reaction of High Polymer v.Ⅰ Ohara,H.
  8. Adv. Carbohyd. Chem. Bioeng. v.33 Relative reactivity of OH groups in carbohydrates Haines,A.H.
  9. Cellulose Cellulose Derivatives Ethers from α, β-unsaturated components Bikales,N.M.
  10. Cellulose and Cellulose Derivatives Crosslinked cellulose Tesoro,G.C.;Willard,J.J.;Bikales,N.M.(ed.);L.Segal(ed.)
  11. Ullmann Encyklopadie der Technischen Chemie(4th Ed.) v.9 Cellulose ather Balser,K.;Iseringhausen,M.
  12. Papier v.31 Distribution of substituents in CMC Buytenhuys,F.A.;Bonn,R.
  13. 목재공학 v.30 no.4 저급목재의 자기가수분해전처리에 의한 고순도 셀룰로오스기질의 제조 조남석;김병로;백기현
  14. 목재공학 탈리그닌한 자기가수분해시료로부터 준비한 카르복시메틸화 시료의 특성 조남석
  15. Mokuzai Gakkaishi v.36 no.3 Carboxymethylation of wood by ethanol-water reaction medium Nakano,T.;Honma,S.;Ehata,S.;Matsumoto,A.
  16. 목재과학실험서 박상진;이종윤;조남석;조병묵
  17. Kamipa Gikyoshi v.35 no.9 Preparation of carboxymethyl cellulose from refiner mechanical pulp Tuyet,L.T.B.;Ishizu,A.;Nakano,J.
  18. Mokuzaigakkaishi v.31 no.9 Preparation and properties of liquid absorbent from carboxymethylated mechanical pulp Tuyet,L.T.B;Hyama,K.;Nakano,J.