• Title/Summary/Keyword: tobacco glutamate decarboxylase

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Changes in the levels of $Ca^{2+}$/calmodulin - binding proteins and glutamate decarboxylase during the growth of tobacco suspension cells (담배 배양 세포의 성장과정 중 칼슘/칼모듈린-결합단백질 및 glutamate decarboxylase의 생성변화)

  • Han, Kwang-Soo;Oh, Suk-Heung
    • Applied Biological Chemistry
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    • v.43 no.4
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    • pp.231-235
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    • 2000
  • The changes of calmodulin levels, calmodulin-binding proteins, and $Ca^{2+}$/calmodulin-dependent glutamate decarboxylase during the growth of tobacco suspension cells were investigated. Tobacco cells exhibited a typical growth curve, including an exponential growth phase between 3 and 5 days after inoculation, and an apparent stationary phase occurring after 5 day. Although slight changes were observed from sample to sample, calmodulin protein levels remained similar during the phases of culture growth. Several $Ca^{2+}-dependent$ calmodulin-binding proteins including 56, 46, 36, and 32-kDa proteins were detected in tobacco cell extracts. The 56-kDa protein was identified as glutamate decarboxylase by Western-blot analysis using an anti-GAD monoclonal antibody. The levels of GAD protein and the specific activity of GAD enzyme were highest during the middle exponential phase of the culture growth cycle. These data suggest that $Ca^{2+}$/calmodulin-dependent glutamate decarboxylase is modulated during the growth of tobacco suspension cells.

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Regulation of γ-Aminobutyric Acid Production in Tobacco Plants by Expressing a Mutant Calmodulin Gene

  • Oh, Suk-Heung;Cha, Youn-Soo
    • Journal of Applied Biological Chemistry
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    • v.43 no.2
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    • pp.69-73
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    • 2000
  • In order to understand the biological role of calmodulin in plants, transgenic plants expressing a mutant calmodulin (VU-4, Iys to ile-115) have been analyzed. We found that tobacco plants expressing VU-4 calmodulin have approximately twofold higher $\gamma$-aminobutyric acid (GABA) levels than the control plants. Cell suspension cultures established from the stem explants of the transgenic tobacco seedlings also have higher levels of GABA than the control cell cultures. Specific activity of glutamate decarboxylase (GAD), which catalyzes the decarboxylation of glutamate to $CO_2$ and GABA, of the transgenic tobacco cell extracts was about twofold higher than the activity of the control cell extracts. Western-blot analysis showed that the GAD is highly expressed in the transgenic tobacco plants. GAD partially purified from tobacco cell extracts showed approximately threefold $Ca^{2+}$/calmodulin-dependent activation. These data suggest that GABA synthesis in the transgenic tobacco plants is elevated, possibly due to higher levels of the calmodulin-dependent GAD enzyme and/or as a result of enhanced activation due to increased levels of the foreign calmodulin.

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Effects of Various Calmodulins on the Activation of Glutamate Decarboxylase and Nicotinamide Adenine Dinucleotide Kinase Isolated from Tobacco Plants

  • Oh, Suk-Heung;Yun, Song Joong
    • Journal of Applied Biological Chemistry
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    • v.42 no.1
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    • pp.19-24
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    • 1999
  • Plants have been shown to contains $Ca^{2+}$/calmodulin-stimulated GAD and NAD kinase. To test how calmodulin and calmodulin methylation affect the activation of GAD and NAD kinase, GAD and NAD kinase were partially purified from tobacco plants. GAD was also partially purified from E. coli transformed with a plasmid carrying a cloned tobacco GAD gene. We find that GAD from the transformed E. coli showed 60-fold $Ca^{2+}$/calmodulin-dependent activation. However, GAD from tobacco plants was stimulated only about 3.8-fold by the addition of calmodulin in the presence of calcium, suggesting high background activity of the enzyme was possibly due to bound endogenous tobacco calmodulin. There were no significant differences in the tobacco GAD activator properties between calmodulins. A monoclonal antibody against petunia GAD interacted strongly with both GAD from tobacco plants and GAD from cloned gene. NAD kinase from tobacco plants showed a complete $Ca^{2+}$/calmodulin dependency for activity. Unmethylated calmodulins activated GAD in a manner similar to methylated calmodulin. However, the maximum level of NAD kinase activation obtained with unmethylated calmodulins is approximately 4-fold higher than methylated calmodutins. These data suggested that endogenous tobacco calmodulin may interact more tightly with GAD than NAD kinase and that calmodulin methylation affects the activator properties of calmodulins for tobacco NAD kinase but not for GAD.

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Stimulatory Effects of Ginsenosides on Bovine Brain Glutamate Decarboxylase

  • Choi, Soo-Young;Bahn, Jae-Hoon;Jeon, Seong-Gyu;Chung, Young-Mee;Hong, Joung-Woo;Ahn, Jee-Yin;Hwang, Eun-Joo;Cho, Sung-Woo;Park, Jin-Kyu;Baek, Nam-In
    • BMB Reports
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    • v.31 no.3
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    • pp.233-239
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    • 1998
  • A GABA synthesizing enzyme, glutamate decarboxylase, has been purified from bovine brain by several chromatographic procedures. The preparation appeared homogeneous on SDS-PAGE. The enzyme is a homodimeric protein with a molecular mass of 120 kDa. The activation of glutamate decarboxylase by ginesenosides from Panax ginseng C.A. Meyer has been studied. Preincubation of the enzyme with total ginsenoside, $Rb_2$ and Rc ginsenosides, increased glutamate decarboxylase activities in a dose-dependent manner. There was a reproducible decrease in $K_m$, in addition to a increase in $V_{max}$, in response to increasing concentrations of the Rc ginsenoside fraction. Upon addition of the ginsenoside to the enzyme, a decrease in flurorescence intensity was discernible, together with an increase in emission anisotropy. Judging from the anisotropy values, the ginsenoside is rapidly trapped by the protein matrix. Total ginsenoside was administered to rats and the rat brains were removed for the measurement of the changes of GABA shunt regulating enzyme activities. Among the GABA shunt regulating enzymes, only the glutamate decarboxylase activities were increased after ginsenoside treatment. Therefore, it is suggested that the ginsenosides may elevate the GABA level in brain by activation of glutamate decarboxylase and the enzymatic activation might be due to the conformational change induced by binding of ginsenoside to the enzyme.

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