CONVERSION OF AMMONIA OR UREA INTO ESSENTIAL AMINO-ACIDS, L-LEUCINE, L-VALINE, AND L-ISOLEUCINE USING ARTIFICIAL CELLS CONTAINING AN IMMOBILIZED MULTIENZYME SYSTEM AND DEXTRAN-NAD+ - L-LACTIC DEHYDROGENASE FOR COENZYME RECYCLING

被引：4

作者：

GU, KF ^{[1
]}

CHANG, TMS ^{[1
]}

机构：

[1] MCGILL UNIV,FAC MED,ARTIFICIAL CELLS & ORGANS RES CTR,3655 DRUMMOND ST,MONTREAL H3G 1Y6,QUEBEC,CANADA

来源：

APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY | 1990年 / 26卷 / 02期

关键词：

ammonia; Artificial cells; coenzyme recycling; dextran-NAD[!sup]+[!/sup; essential amino acids; immobilization; L-isoleucine; L-lactic dehydrogenase; L-leucine; L-valine; leucine dehydrogenase; microencapsulation; multienzyme system; urea;

D O I：

10.1007/BF02921527

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

A multienzyme system consisting of leucine dehydrogenase (EC 1.4.1.9), L-lactic dehydrogenase (EC 1.1.1.27), urease (EC 3.5.1.5), and dextran-NAD+ was microencapsulated within artificial cells. This system could convert ammonia and urea into essential amino acids, L-leucine, L-valine, and L-isoleucine. L-lactate acted as a cosubstrate for the regeneration of dextran-NADH. Greater concentrations of L-lactate favored the higher conversion ratios. The effects of ammonium salts and urea on reaction rate were also studied. The relative reaction rates in ammonium salts solutions were 44.6-78.8% of those in urea solutions. More than 90% of the original activity was retained when artificial cells were kept at 4°C for 6 wk. © 1990 Humana Press Inc.

引用

页码：115 / 124

页数：10

共 7 条

[1] CONVERSION OF AMMONIA OR UREA INTO ESSENTIAL AMINO-ACIDS, L-LEUCINE, L-VALINE, AND L-ISOLEUCINE USING ARTIFICIAL CELLS CONTAINING AN IMMOBILIZED MULTIENZYME SYSTEM AND DEXTRAN-NAD+ .4. MALATE-DEHYDROGENASE FOR COENZYME RECYCLING
GU, KF
CHANG, TMS
JOURNAL OF MOLECULAR CATALYSIS, 1990, 62 (03): : 331 - 339
[2] CONVERSION OF AMMONIA OR UREA INTO ESSENTIAL AMINO-ACIDS, L-LEUCINE, L-VALINE, AND L-ISOLEUCINE, USING ARTIFICIAL CELLS CONTAINING AN IMMOBILIZED MULTIENZYME SYSTEM AND DEXTRAN NAD+ .2. YEAST ALCOHOL-DEHYDROGENASE FOR COENZYME RECYCLING
GU, KF
CHANG, TMS
BIOTECHNOLOGY AND APPLIED BIOCHEMISTRY, 1990, 12 (03) : 227 - 236
[3] CONVERSION OF UREA OR AMMONIA INTO ESSENTIAL AMINO-ACIDS (L-LEUCINE, L-VALINE, AND L-ISOLEUCINE) USING MULTIENZYME SYSTEMS AND NADH-DEXTRAN IMMOBILIZED IN ARTIFICIAL CELLS
GU, KF
CHANG, TMS
BIOMATERIALS ARTIFICIAL CELLS AND ARTIFICIAL ORGANS, 1987, 15 (01): : 297 - 303
[4] PRODUCTION OF ESSENTIAL L-BRANCHED-CHAIN AMINO-ACIDS IN BIOREACTORS CONTAINING ARTIFICIAL CELLS IMMOBILIZED MULTIENZYME SYSTEMS AND DEXTRAN-NAD+
GU, KF
CHANG, TMS
BIOTECHNOLOGY AND BIOENGINEERING, 1990, 36 (03) : 263 - 269
[5] Solubility of α-amino acids in water under high pressure:: glycine, L-alanine, L-valine, L-leucine, and L-isoleucine
Matsuo, H
Suzuki, Y
Sawamura, S
FLUID PHASE EQUILIBRIA, 2002, 200 (02) : 227 - 237
[6] CHANGES IN FREE AMINO-ACIDS OF SPIRODELA POLYRHIZA (L) SCHLEIDEN DURING GROWTH INHIBITION BY L-VALINE, L-ISOLEUCINE, OR L-LEUCINE - GAS-CHROMATOGRAPHIC STUDY
BORSTLAP, AC
ACTA BOTANICA NEERLANDICA, 1972, 21 (04): : 404 - &
[7] CONVERSION OF ALPHA-KETOGLUTARATE INTO L-GLUTAMIC ACID WITH UREA AS AMMONIUM SOURCE USING MULTIENZYME SYSTEMS AND DEXTRAN-NAD+ IMMOBILIZED BY MICROENCAPSULATION WITHIN ARTIFICIAL CELLS IN A BIOREACTOR
GU, KF
CHANG, TMS
BIOTECHNOLOGY AND BIOENGINEERING, 1988, 32 (03) : 363 - 368

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