• Title/Summary/Keyword: Anthranilate synthetase

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Characterization of Anthranilate Synthetase from a 5-methyltryptophan Resistant Mutant(MR1) in Maize (옥수수 5-methyltryptophan 저항성 돌연변이주(MR1)의 Anthranilate Synthetase 특성)

  • 강권규;노일섭;이효연;신동영
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.40 no.1
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    • pp.52-58
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    • 1995
  • 5-methyltryptophan(5MT) resistant mutant plants (MRl) were analyzed for characterization of anthranilate synthetase (AS) and tryptophan synthetase (TS) enzymes. The enzyme was measured in crude extracts from MR1 and control seedlings of Danggin inbred line. There was no significant difference in the level of AS between MR1 and control seedlings when grown on MS medium without 5MT. However, MR1 seedlings grown on MS medium with 25mg/L 5MT showed the level of AS twice higher than that of control seedlings. The activity of AS was inhibited to 50% in untreated plants when 4mg /L L-tryptophan was added to their extracts. Extracts from MR1 plants required about four times higher concentration of amino acid to cause equal inhibition. In the TS assay, the activity observed in MR1 seedlings was four times higher than that of control seedlings. We have also isolated and sequenced the gene which encoding the tryptophan synthetase B subunit (TSB) from maize. The gene encodes polypeptides with high homology to TSB isolated from other plants, and is expressed in all the developmental stages examined. Northern hybridization analysis indicated that the gene expression in MR1 seedlings grown on MS medium showed a higher level than in control seedlings.

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Stable Maintenance of Recombinant Plasmid Containing trp $^+$ Operon in E. coli Cultures by the phe W$^+$ -pheS$^{t8}$ System (대장균 배양 중 phe W$^+$-pheS-$^{-ts}$ System에 의한 재조합 trp$^+$ 플라스미드의 안정적 유지)

  • 강충민;최장원;이세영
    • Microbiology and Biotechnology Letters
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    • v.18 no.1
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    • pp.89-93
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    • 1990
  • To improve the stability of recombinant pBR322-trip$^+$ plasmid (pLTW24) in E. coli culture, a positive selection system was devised. A DNA fragment containing pheW$^+$ gene (a structural gene for tRNA$^{phe}$ was isolated and inserted into the pBR322-trip$^+$ plasmid(pLTP24). A temperature sensitive host strain. LC901-pheS$^{-ts}$, was constructed for this plasmid by transducing pheS$^{-ts}$ allele (phenylalanyl-tRNA synthetase) to E. coli LC901 using P1kc bacteriophage. The LC901-pheS$^{-ts}$ cells were unable to grow at a restrictive temperature when they had lost the pBR322 :: pheW$^+$ (pLTP24) plasmid. The effects of pheW$^+$ gene on the plasmid stability and the expression level of trip$^+$ gene in LC901-pheS$^{-ts}$ strain were investigated. The proportion of Trip$^+$ colonies among LC901-pheS$^{-ts}$ strain carrying plasmid pLTP24 was 99%, whereas that of LC901 strain carrying plasmid pLTW24 was 7% at the end of 20 generations. After 100 generations of growth, the strain LC901-pheS$^{-ts}$ carrying plasmid pLTP24 showed little loss of plasmids. While the majority of plasmid pLTW24 in LC901 strain were lost in the same period. The activities of tryptophan synthetase (T. Sase) and anthranilate synthetase (A. Sase) in LC901 strain carrying pLTW24 were about 1.2 times and 1.8 times respectively of those in LC901-pheS$^{-ts}$ strain carrying pLTP24.

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