• Title/Summary/Keyword: tryptophan synthase

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Unfolding Property of Residue 24-Substituted Tryptophan Synthase $\alpha$-Subunits (24번 잔기가 치환된 트립토판 중합효소 $\alpha$ 소단위체들의 구조풀림 성질)

  • 정지은;박후휘;신혜자;임운기
    • Journal of Life Science
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    • v.9 no.6
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    • pp.733-736
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    • 1999
  • The doubly altered mutant tryptophan synthase $\alpha$-subunits, in which Thr 24 was replaced by Ser, Leu or Lys in addition to F139W substitution, were purified. Urea-induced unfolding equilibrium curves of these proteins, monitored by fluorescence intensity of tryptophan, show that the alterations of residue 24 resulted in marked changes in folding properites, suggesting the importance of this residue in folding of this protein.

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Effect of Substituted Residue 24 on Folding of Tryptophan Synthase $\alpha$ Subunit (트립토판 중합효소 $\alpha$ 소단위체의 폴딩에 미치는 24번 잔기 치환효과)

  • 박후휘;김종원;신혜자;임운기
    • Journal of Life Science
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    • v.9 no.2
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    • pp.146-152
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    • 1999
  • In order to elucidate a role of residue 24 in the folding of tryptophan synthase $\alpha$ subunit, mutant proteins in which Thr 24 was replaced by Met, Ala, Ser, Leu or Lys were overexpressed in E. coli, and the extents of accumulated proteins as soluble or aggregated forms were examined. The mutant proteins with Met or Leu at residue 24 were predominantly accumulated as soluble forms as the native protein. On the other hand, mutant proteins with Ser, Ala or Lys at residue 24 were expressed as aggregated forms as well. This result suggests that residue 24 of tryptophan synthase $\alpha$ subunit may be implicated in the folding of this protein.

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Identification of Amino Acid Residues Involved in Feedback Inhibition of the Anthranilate Synthase in Escherichia coli

  • Kwak, Joon-Hyeok;Hong, Kwang-Won;Lee, Sung-Haeng;Hong, Jin-Han;Lee, Se-Yong
    • BMB Reports
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    • v.32 no.1
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    • pp.20-24
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    • 1999
  • The first step of the branch pathway in tryptophan biosynthesis is catalyzed by anthranilate synthase, which is subjected to feedback inhibition by the end product of the pathway. The $trpE^{FBR}$ gene from a mutant Escherichia coli strain coding for anthranilate synthase that was insensitive to feedback inhibition by tryptophan has been cloned. To identify the amino acid changes involved in the feedback regulation of anthranilate synthase, the nucleotide sequence of the mutant $trpE^{FBR}$ gene was determined. Sequence analysis of the $trpE^{FBR}$ gene revealed that four bases were changed in the structural gene while alteration was not found in the 5' control region. Among these base changes, only two base substitutions caused the alterations in amino acid sequences. From the results of restriction fragment exchange mapping, the 61st nucleotide, C to A substitution, that changed $Pro^{21}{\rightarrow}Ser$ was identified as the cause of the desensitization to feedback inhibition by tryptophan. Additional feedback-resistant enzymes of the E. coli anthranilate synthases were constructed by site-directed mutagenesis to examine the effect of the $Ser^{40}\;{\rightarrow}\;Arg^{40}$ change found in the $trpE^{FBR}$ gene of Brevibacterium lactofermentum. From the feedback inhibition analysis, the $Pro^{21}{\rightarrow}Ser$ and $Ser^{40}{\rightarrow}Arg$ mutants maintained about 50% and 90% of their maximal activities, respectively, even at the extreme concentration of 10 mM tryptophan. From these results, we suggest that the $Pro^{21}$ and $Ser^{40}$ residues are involved in the tryptophan binding in the E. coli enzyme.

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Crystallization and X-Ray Crystallographic Studies of Wild-Type and Mutant Tryptophan Synthase α-Subunits from Escherichia coli

  • Jeong, Mi Suk;Jang, Se Bok
    • Molecules and Cells
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    • v.19 no.2
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    • pp.219-222
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    • 2005
  • The a-subunit of Escherichia coli tryptophan synthase (${\alpha}TS$), a component of the tryptophan synthase ${\alpha}_2{\beta}_2$ complex, is a monomeric 268-residues protein (Mr = 28,600). ${\alpha}TS$ by itself catalyzes the cleavage of indole-3-glycerol phosphate to glyceraldehyde-3-phosphate and indole, which is converted to tryptophan in tryptophan biosynthesis. Wild-type and P28L/Y173F double mutant ${\alpha}$-subunits were overexpressed in E. coli and crystallized at 298 K by the hanging-drop vapor-diffusion method. X-ray diffraction data were collected to $2.5{\AA}$ resolution from the wild-type crystals and to $1.8{\AA}$ from the crystals of the double mutant, since the latter produced better quality diffraction data. The wild-type crystals belonged to the monoclinic space group C2 ($a=155.64{\AA}$, $b=44.54{\AA}$, $c=71.53{\AA}$ and ${\beta}=96.39^{\circ}$) and the P28L/Y173F crystals to the monoclinic space group $P2_1$ ($a=71.09{\AA}$, b=52.70, $c=71.52{\AA}$ and ${\beta}=91.49^{\circ}$). The asymmetric unit of both structures contained two molecules of ${\alpha}TS$. Crystal volume per protein mass ($V_m$) and solvent content were $2.15{\AA}^3\;Da^{-1}$ and 42.95% for the wild-type and $2.34{\AA}^3\;Da^{-1}$ and 47.52% for the double mutant.

Modigication of host cells and Expression of Recombinant E. coli trp plasmids for the increased Production of Tryptophan in Klebsiella pneumoniae (Klebsiella pneumoniae에서 트립토판 생산증대를 위한 숙주개발 및 재조합 trp plasmid의 발현)

  • 지연태;홍광원;박장현;이세영
    • Korean Journal of Microbiology
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    • v.25 no.1
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    • pp.46-51
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    • 1987
  • In order to increase the production of tryptophan by maximizing expression of recombinant trp plasmid, Klebsiella pneumoniae KC 105(pheA tyrA trpE trpR tyrR) was genetically modified. KC 107, inosine monophospate(IMP) auxotroph from KC 105 and KC 108, histidine(His) auxotroph from KC 107 were also derived respectively to increase phosphoribosylpyrophosphate(PRPP) production which is required for tryptophan biosynthesis. From KC 107 phosphoribosylpyrophosphate consumption which is required for tryptophan biosynthesis. From KC 107 and KC 108, KC 109 and KC 110, both arginine auxotrophs were derived respectively. To investigate the expression of recombinant trp plasmid in the selected K. pneumoniae mutants, the auxotrophic mutants were transformed with recombinant trp plasmids pSC 101-$trpE^{FBR}$, pSC 101-trpL(.DELTA.att) $trpE^{FBR}$ (pSC 101-trp-AF). Amount of tryptophan produced and activities of tryptophan synthase of $trpR^{-}$ mutant (KC 100) and $tyrR^{-}$ mutnat(KC 105) containing recombinant plasmid pSC 101-trp operon were increased by 30-40% as compared with KC 99(pheA tyrA trpE) containing recombinant plasmid pSC 101-trp operon. Activities of tryptophan synthase and production of tryptophan of KC 108 ($His^{-}$) and KC 109($Arg^{-}$) containing recombinant plasmid pSC 101-trp operon were increase by two-fold as compared with KC 107 containing pSC 101-trp operon.

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Development of high tryptophan GM rice and its transcriptome analysis (고 함량 트립토판 생산 GM 벼 개발 및 전사체 분석)

  • Jung, Yu Jin;Nogoy, Franz Marielle;Cho, Yong-Gu;Kang, Kwon Kyoo
    • Journal of Plant Biotechnology
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    • v.42 no.3
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    • pp.186-195
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    • 2015
  • Anthranilate synthase (AS) is a key enzyme in the biosynthesis of tryptophan (Trp), which is the precursor of bioactive metabolites like indole-3-acetic acid and other indole alkaloids. Alpha anthranilate synthase 2 (OsASA2) plays a critical role in the feedback inhibition of tryptophan biosynthesis. In this study, two vectors with single (F124V) and double (S126F/L530D) point mutations of the OsASA2 gene for feedback-insensitive ${\alpha}$ subunit of rice anthranilate synthase were constructed and transformed into wildtype Dongjinbyeo by Agrobacterium-mediated transformation. Transgenic single and double mutant lines were selected as a single copy using TaqMan PCR utilized nos gene probe. To select intergenic lines, the flanking sequence of RB or LB was digested with a BfaI enzyme. Four intergenic lines were selected using a flanking sequence tagged (FST) analysis. Expression in rice (Oryza sativa L.) of the transgenes resulted in the accumulation of tryptophan (Trp), indole-3-acetonitrile (IAN), and indole-3-acetic acid (IAA) in leaves and tryptophan content as a free amino acid in seeds also increased up to 30 times relative to the wildtype. Two homozygous event lines, S-TG1 and D-TG1, were selected for characterization of agronomic traits and metabolite profiling of seeds. Differentially expressed genes (DEGs), related to ion transfer and nutrient supply, were upregulated and DEGs related to co-enzymes that work as functional genes were down regulated. These results suggest that two homozygous event lines may prove effective for the breeding of crops with an increased level of free tryptophan content.

Effects of Temperature and Urea on in vitro Aggregation of Tryptophan Synthase $\alpha$-Subunits

  • Park, Myung-Won;Jeong, Jae-Kap;Shin, Hae-Ja;Lim, Woon-Ki
    • Biomedical Science Letters
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    • v.9 no.4
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    • pp.203-207
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    • 2003
  • Protein aggregation could be problematic as causes of diseases and hindrance in the production of useful recombinant proteins. Aggregation of mutant tryptophan synthase $\alpha$-subunits was examined by treatment with urea and at high temperature. Large amorphous aggregate seemed to appear by heat treatment, while more various aggregates in size were formed by treatment with urea at low concentration. The result indicates that different aggregate in size could be formed depending on the treatment condition, suggesting different mechanisms underlying aggregation processes.

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The Stimulatory Effect of $Ca^{2+}and; Mg{^2}+ $ lons on the Formation of Protein Aggregate during in vitro Refolding of Tryptophan Synthase $\alpha$-Subunit (트립토판 중합효소 알파 소단위체의 in vitro 구조재형성시 $Ca^{2+}과; Mg^{2+} $ 이온의 단백질 응집체형성 촉진 효과)

  • 천광호;김종원;신혜자;임운기
    • Journal of Life Science
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    • v.9 no.3
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    • pp.328-332
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    • 1999
  • The effect of cations on the formation of protein aggregates was examined by in vitro refolding of mutant tryptophan synthase $\alpha$-subunit in which Pro 24 was replaced by Leu. $NH^{4+},; K{^+}; and; Na^{+}$ and no effect, but $Mg^{2+}; and; Ca^{2+}$stimulated the formation of protein aggregates in dose-dependent manner. It is suggested that $Mg^{2+} and Ca^{2+}$ may be implicated in the formation of protein aggregates in vivo.

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Various Aggregate Forms of Tryptophan Synthase α-Subunit (트립토판 합성효소 α 소단위체의 다양한 단백질 덩어리 형성)

  • Park, Myung Won;Lim, Woon Ki
    • Journal of Life Science
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    • v.23 no.2
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    • pp.319-323
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    • 2013
  • Protein aggregation can cause diseases and hinder the production of useful recombinant proteins. The present study showed that at least three types of aggregates can be formed from tryptophan synthase ${\alpha}$-subunit (${\alpha}TS$) by varying conditions: (1) an opaque white precipitous aggregate, (2) a transparent gel-like precipitous aggregate, and (3) an unprecipitous aggregate. Macroscopically different aggregate types might suggest different mechanisms underlying aggregation processes.