• Title/Summary/Keyword: aspartate semialdehyde dehydrogenase

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Development of L-Threonine Producing Recombinant Escherichia coli using Metabolic Control Analysis (대사 조절 분석 기법을 이용한 L-Threonine 생산 재조합 대장균 개발)

  • Choi, Jong-Il;Park, Young-Hoon;Yang, Young-Lyeol
    • KSBB Journal
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    • v.22 no.1
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    • pp.62-65
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    • 2007
  • New strain development strategy using kinetic models and metabolic control analysis was investigated. In this study, previously reported mathematical models describing the enzyme kinetics of intracellular threonine synthesis were modified for mutant threonine producer Escherichia coli TF5015. Using the modified models, metabolic control analysis was carried out to identify the rate limiting step by evaluating the flux control coefficient on the overall threonine synthesis flux exerted by individual enzymatic reactions. The result suggested the production of threonine could be enhanced most efficiently by increasing aspartate semialdehyde dehydrogenase (asd) activity of this strain. Amplification of asd gene in recombinant strain TF5015 (pCL-$P_{aroF}$-asd) increased the threonine production up to 23%, which is much higher than 14% obtained by amplifying aspartate kinse (thrA), other gene in threonine biosynthesis pathway.

Molecular cloning and restriction endonuclease mapping of homoserine dehydrogenase gene (HOM6) in yeast saccharomyces cerevisiae (Aspartate계 아미노산 대사 효모 유전자 HOM6의 cloning 및 구조분석)

  • 김응기;이호주
    • Korean Journal of Microbiology
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    • v.24 no.4
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    • pp.357-363
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    • 1986
  • Synthesis of threonine and methionine in yeast, Saccharomyces cerevisiae shares a common pathway from aspartate via homoserine. HOM6 gene encodes homoserine dehydrogenase (HSDH) which catalyzes the inter-conversion of beta-aspartate semialdehyde and homoserine. The level of HSDH is under methionine specific control. A recombinant plasmid (pEK1: 13.3kb), containing HOM6 gene, has been isolated and cloned into E. coli by complenemtary transformation of a homoserine auxotrophic yeast strain M-20-20D (hom6, trp1, ura3) to a prototrophic M20-20D/pEK1, using a library of yeast genomic DNA fragments in a yeast centromeric plasmid, YCp50(8.0kb). Isolation of HOM6has been primarily confirmed by retransformation of the original yeast strain M20-20D, using the recombinant plasmid DNA which was extracted from M20-20D/pEK1 and subsequently amplified in E. coli. Eleven cleavage sites in the insery (5.3kb) have been localized through fragment analysis for 8 restriction endonucleases; Bgl II(2 site), Bgl II(1), Cla I(3), Eco RI(1), Hind III(2), Kpn I (1), Pvu II(1) and Xho I(1).

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Molecular and Enzymatic Features of Homoserine Dehydrogenase from Bacillus subtilis

  • Kim, Do Hyeon;Nguyen, Quyet Thang;Ko, Gyeong Soo;Yang, Jin Kuk
    • Journal of Microbiology and Biotechnology
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    • v.30 no.12
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    • pp.1905-1911
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    • 2020
  • Homoserine dehydrogenase (HSD) catalyzes the reversible conversion of ʟ-aspartate-4-semialdehyde to ʟ-homoserine in the aspartate pathway for the biosynthesis of lysine, methionine, threonine, and isoleucine. HSD has attracted great attention for medical and industrial purposes due to its recognized application in the development of pesticides and is being utilized in the large scale production of ʟ-lysine. In this study, HSD from Bacillus subtilis (BsHSD) was overexpressed in Escherichia coli and purified to homogeneity for biochemical characterization. We examined the enzymatic activity of BsHSD for ʟ-homoserine oxidation and found that BsHSD exclusively prefers NADP+ to NAD+ and that its activity was maximal at pH 9.0 and in the presence of 0.4 M NaCl. By kinetic analysis, Km values for ʟ-homoserine and NADP+ were found to be 35.08 ± 2.91 mM and 0.39 ± 0.05 mM, respectively, and the Vmax values were 2.72 ± 0.06 μmol/min-1 mg-1 and 2.79 ± 0.11 μmol/min-1 mg-1, respectively. The apparent molecular mass determined with size-exclusion chromatography indicated that BsHSD forms a tetramer, in contrast to the previously reported dimeric HSDs from other organisms. This novel oligomeric assembly can be attributed to the additional C-terminal ACT domain of BsHSD. Thermal denaturation monitoring by circular dichroism spectroscopy was used to determine its melting temperature, which was 54.8℃. The molecular and biochemical features of BsHSD revealed in this study may lay the foundation for future studies on amino acid metabolism and its application for industrial and medical purposes.

Cloning and Nucleotide Sequence Analysis of the asd Gene from Shigella sonnei KNIH104S (Shigella sonnei KNIH104S로부터 asd 유전자의 클로닝 및 염기서열 분석)

  • 박용춘;신희정;김영창
    • Korean Journal of Microbiology
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    • v.35 no.1
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    • pp.13-17
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    • 1999
  • Shigella sonnez is important causes of human enleric infcctions. S. sonnei KNIH104S was isolated from patient of shigellosis in Korea and previously reported. We cloned 1.7 kb BamHI fragment containing the asd gene encoding an aspartate $\beta$-semialdehyde dehydrogenase from chromosomal DNA of S. sonnei KNIH104S. This recombinant plasmid was named as pSAB17. E. coli $\chi$6097, an a d mutant, cannol grow on the LB medium without DL-$\alpha$, $\varepsilon$-diaminopimclic acid (50 pgiml) but E. coli x 6097(pSAB17) can grow on the same medium. We sequenccd the asd gene ol Shigella for the first time. The asd gcne was composed of 1,104 base pairs with ATG initiation codon and TAA termination codon. Sequence comparison of the asd gene exhibited 99.9% nucleolide sequence hornology with that of E. coli. Also, We constructed the balanced-lethal vector using pBluescrip SK(+) and asd gene of S. sonnei KNIH104S.

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