Biomedical Engineering Reference
In-Depth Information
[16]
Kullman, W. (1982) Protease-catalyzed peptide bond formation: application to synthesis
of the COOH-terminal octapeptide fragment of cholecystokinin.
Proceedings of the
National Academy of Sciences of the United States of America.
79
, 2840-2844.
[17]
Kullman, W. (1979) Enzymatic synthesis of Leu- and Metenkephalin.
Biochem.
Biophys. Research Comm.
91
, 693-698.
[18]
Takai, H., Sakato, K., Nakamizo, N. & Isowa, Y. (1981) Enzymatic synthesis of
caerulein peptide. In: Oyama, K. & Niimura, S. (Eds.)
Peptide Chemistry
(pp. 213-214).
Protein Research Foundation, Osaka.
[19]
Oyama, K., Irino, S. & Hagi, N. (1987) Production of aspartame by immobilized
thermoase.
Methods in Enzymology.
136
, 503-516.
[20]
Aso, K. (1989) Enzymatic approach to the synthesis of a lysinecontaining sweet peptide,
N-acetyl-L-phenylalanyl-Llysine.
Agric. Biol. Chem.
53
, no. 3, p. 729-733.
[21]
Clapés, P., Mata-Alvarez, J., Valencia, G., Reig, F., Torres, J.L. & García-Antón, J.-M.
(1989) Continuous enzymatic synthesis of Z-kyotorphin amide in an enzyme-
immobilized fixed-bed reactor.
J Chem. Technol. Biotech.
45
, 191-202.
[22]
Nakanishi, K., Takeuchi, A. & Matsuno, R. (1990) Long-term continuous synthesis of
aspartame precursor in a column reactor with an immobilized thermolysin.
App.
Microbiol. Biot.
32
, 633-636.
[23]
Kimura, Y., Muraya, K., Araki, Y., Matsuoka, H., Nakanishi, K. & Matsuno, R. (1990)
Synthesis of peptides consisting of essential amino acids by a reactor system using three
proteinases and an organic solvent.
Agric. Biol. Chem.
54
, 3331-3333.
[24]
Kimura, Y., Nakanishi, K. & Matsuno, R. (1990) Enzymatic synthesis of the precursor
of Leu-enkephalin in water-immiscible organic solvent systems.
Enzyme Microb.
Technol.
12, 272-280.
[25]
Monter, B., Herzog, B., Stehle, P. & Fürst, P. (1991) Kinetically controlled synthesis of
dipeptides using ficin as biocatalyst.
Biotech. Appl. Biochem.
14
, 183-191.
[26]
Herrmann, G., Schwarz, A., Wandrey, C., Kula, M.R., Knaup, G., Drauz, K.H. &
Berndt, H. (1991) Scale up of enzymatic peptide synthesis in an enzyme membrane
reactor.
Biotech. Appl. Biochem.
13
, 346-353.
[27]
Serralheiro, M.L.M., Prazeres, D.M.F. & Cabral, J.M.S. (1994) Dipeptide synthesis and
separation in a reversed micellar membrane reactor.
Enzyme Microb. Technol.
16
, no.
12, p. 064-1073.
[28]
Bradford, M.M. (1976) A rapid and sensitive method for the quantitation of microgram
quantities of protein utilizing the principle of protein-dye binding.
Anal. Biochem.
72
,
248-254.
[29]
Mole, J.E. & Horton, R. (1973) Kinetic of Papain-Catalyzed Hydrolysis of α-N-
Benzoyl-L-arginine-p-nitroanilide.
Biochem.
12
, 816-822.
[30]
Priolo, N., Morcelle del Valle, S., Arribére, M., López, M. & Caffini, N. (2000)
Isolation and characterization of cysteine protease from the latex of
Araujia hortorum
fruits.
J. Protein Chem.
19
, 39-49.
[31]
Phadatare, S.U., Srinivasan, M.C. & Deshpande, V.V. (1993) High Activity Alkaline
Protease from
Cornidiobolus coronatus
(NCL 86.8.20): Enzyme Production and
Compatibility with commercial Detergents.
Enzyme Microb. Technol.
15
, 72-76.
[32]
Gupta R., Beg Q.K. & Lorenz P. (2002) Bacterial alkaline proteases: molecular
approaches and industrial application.
Appl Microbiol Biotechnol.
59
,15-32.