Chapter 7 – Industrial Application of Immobilized Enzymes: Present State of the Art
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[1] R. Messing,et al. An immobilized glucose isomerase for the continuous conversion of glucose to fructose. , 1975, Journal of agricultural and food chemistry.
[2] G. F. Senyk,et al. Performance of an Immobilized Trypsin System for Improving Oxidative Stability of Milk , 1975 .
[3] H. Weetall,et al. Protein hydrolysis with immobilized enzymes , 1975 .
[4] T. Tosa,et al. Continuous production of urocanic acid by immobilized Achromobacter liquidum cells , 1974, Biotechnology and bioengineering.
[5] T. Tosa,et al. Continuous production of L‐citrulline by immobilized Pseudomonas putida cells , 1974, Biotechnology and bioengineering.
[6] H. Weetall,et al. Studies on aminoacylase immobilized on porous ceramic carriers , 1974, Biotechnology and bioengineering.
[7] E. C. Lee,et al. TRYPSIN IMMOBILIZED ON POROUS GLASS: PRESERVATION AND CHOICE OF REACTOR , 1974 .
[8] M. Mandels,et al. Enzymatic hydrolysis of waste cellulose , 1974 .
[9] G. F. Senyk,et al. Preparation and stability of trypsin immobilized on porous glass , 1974 .
[10] T. Tosa,et al. Immobilized Aspartase-Containing Microbial Cells: Preparation and Enzymatic Properties , 1974, Applied microbiology.
[11] J. P. Andrews,et al. Immobilized Leucine Aminopeptidase Applications in Protein Chemistry , 1973 .
[12] A. Olson,et al. Lactase and other enzymes bound to a phenol-formaldehyde resin with glutaraldehyde. , 1973, Journal of agricultural and food chemistry.
[13] S. P. O'neill. External diffusional resistance in immobilized-enzyme catalysis. , 1972, Biotechnology and bioengineering.
[14] T. Tosa,et al. Studies on Continuous Enzyme Reactions : (VIII)Kinetics and Pressure Drop of Aminoacylase Column , 1971 .
[15] M. Lilly,et al. A comparative study of immobilized amyloglucosidase in a packed bed reactor and a continuous feed stirred tank reactor , 1971, Biotechnology and bioengineering.
[16] K. L. Smiley. Continuous conversion of starch to glucose with immobilized glucoamylase , 1971, Biotechnology and bioengineering.
[17] P. Jurtshuk,et al. The enzymatic hydroxylation of n-octane by Corynebacterium sp. strain 7E1C. , 1970, The Journal of biological chemistry.
[18] K. L. Smiley,et al. Starch conversion by immobilized glucoamylase , 1970 .
[19] M. Lilly,et al. Preparation and use of insolubilized amyloglucosidase for the production of sweet glucose liquors , 1969 .
[20] P. Jurtshuk,et al. Cytochrome P-450 involvement in the oxidation of n-octane b cell-free extracts of Corynebacterium sp. strain 7E1C. , 1968, The Journal of biological chemistry.
[21] S. Orrenius,et al. On the fatty acid and hydrocarbon hydroxylation in rat liver microsomes. , 1968, European journal of biochemistry.
[22] M. J. Coon,et al. Enzymatic ω-Oxidation III. PURIFICATION AND PROPERTIES OF RUBREDOXIN, A COMPONENT OF THE ω-HYDROXYLATION SYSTEM OF PSEUDOMONAS OLEOVORANS , 1968 .
[23] M. J. Coon,et al. Enzymatic ω-Oxidation II. FUNCTION OF RUBREDOXIN AS THE ELECTRON CARRIER IN ω-HYDROXYLATION , 1967 .
[24] Takao Mori,et al. Studies on continuous enzyme reactions. IV. Preparation of a DEAE‐sephadex–aminoacylase column and continuous optical resolution of acyl‐DL‐amino acids , 1967 .
[25] M. Kusunose,et al. Requirement of three proteins for hydrocarbon oxidation. , 1967, Journal of biochemistry.
[26] M. J. Coon,et al. Enzymatic ω-Oxidation I. ELECTRON CARRIERS IN FATTY ACID AND HYDROCARBON HYDROXYLATION , 1966 .
[27] T. Tosa,et al. Studies on continuous enzyme reactions. I. Screening of carriers for preparation of water-insoluble aminoacylase. , 1966, Enzymologia.
[28] M. J. Coon,et al. HYDROCARBON OXIDATION BY A BACTERIAL ENZYME SYSTEM. II. COFACTOR REQUIREMENTS FOR OCTANOL FORMATION FROM OCTANE. , 1963, Biochemistry.
[29] B. Schnyder. Continuous Isomerization of Glucose to Fructose on a Commercial Basis , 1974 .
[30] T. Tosa,et al. Studies on Continuous Enzyme Reactions , 1969 .
[31] Y. Takasaki. Studies on Sugar-isomerizing Enzyme , 1966 .