FEASIBILITY OF WASTE-WATER TREATMENT USING GENETICALLY ENGINEERED MICROORGANISMS

被引：21

作者：

FUJITA, M ^{[1
]}

IKE, M ^{[1
]}

HASHIMOTO, S ^{[1
]}

机构：

[1] FUKUI INST TECHNOL,DEPT CONSTRUCT ENGN,FUKUI 910,JAPAN

来源：

WATER RESEARCH | 1991年 / 25卷 / 08期

关键词：

GENETICALLY ENGINEERED MICROORGANISMS; WASTE-WATER TREATMENT; XENOBIOTIC COMPOUNDS; RECOMBINANT PLASMID; DEGRADATION ACTIVITY; GENETIC AND ECOLOGICAL STABILITY; FLOC-FORMING BACTERIA;

D O I：

10.1016/0043-1354(91)90147-I

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

The feasibility of wastewater treatment using genetically engineered xenobiotic-degrading microorganisms was discussed. The degradation activity and the plasmid stability of some Escherichia coli and Pseudomonas putida strains harboring the recombinant plasmids containing salicylate oxidase gene or catechol 2,3 oxygenase gene were investigated. A few recombinants showed higher degradation activity than those of the wild strains. On the other hand, the recombinant plasmids were unstable in the absence of selective pressure. Both the degradation activity and the plasmid stability were affected considerably by the combination of plasmids and recipients. In another experiment, NAH plasmid was transferred into a floc-forming bacteria, Pseudomonas lemoignei 551 by conjugation, and floc-forming and salicylate-degrading bacteria were bred. This genetically engineered bacteria which grows flocculently seems to be maintained stably in activated sludge or in the wastewater treatment process. From these experimental results, the availability of the application of GEMs was demonstrated, and the possibility of solving two major problems, the genetic stability and the ecological stability, was suggested.

引用

页码：979 / 984

页数：6

共 19 条

[1]

APPLEYARD RK, 1954, GENETICS, V39, P440

[2] SPECIFIC-PURPOSE PLASMID CLONING VECTORS .2. BROAD HOST RANGE, HIGH COPY NUMBER, RSF1010-DERIVED VECTORS, AND A HOST-VECTOR SYSTEM FOR GENE CLONING IN PSEUDOMONAS [J].

BAGDASARIAN, M ;

LURZ, R ;

RUCKERT, B ;

FRANKLIN, FCH ;

BAGDASARIAN, MM ;

FREY, J ;

TIMMIS, KN .

GENE, 1981, 16 (1-3) :237-247

[3]

BIRMBOIM HC, 1979, NUCLEIC ACIDS RES, V7, P1513, DOI DOI 10.1093/NAR/7.6.1513

[4] SPECIFICATION OF SURFACE MATING SYSTEMS AMONG CONJUGATIVE DRUG-RESISTANCE PLASMIDS IN ESCHERICHIA-COLI-K-12 [J].

BRADLEY, DE ;

TAYLOR, DE ;

COHEN, DR .

JOURNAL OF BACTERIOLOGY, 1980, 143 (03) :1466-1470

[5] TRANSMISSIBLE PLASMID CODING EARLY ENZYMES OF NAPHTHALENE OXIDATION IN PSEUDOMONAS-PUTIDA [J].

DUNN, NW ;

GUNSALUS, IC .

JOURNAL OF BACTERIOLOGY, 1973, 114 (03) :974-979

[6] PLASMID-CODED DEGRADATION OF SALICYLATE USING THE CATECHOL CLEAVAGE PATHWAY OF THE HOST [J].

FUJITA, M ;

HASHIMOTO, S ;

TAKEO, M ;

HAGINO, K .

JOURNAL OF FERMENTATION AND BIOENGINEERING, 1989, 67 (04) :286-290

[7]

FUJITA M, 1991, IN PRESS WLD J BIOL

[8]

HASHIMOTO S, 1989, 26TH P ANN C JAP SWG, P415

[9]

HASHIMOTO S, 1987, P ENV SANIT ENG RES, V23, P251

[10]

IMANAKA T, 1981, ANN NY ACAD SCI, V361, P1

← 1 2 →