• Applied Biological Chemistry
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• 제48권3호
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• pp.212-216
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• 2005

Thapsigargin은 동물조직에서 ER/SR-type $Ca^{2+}-ATPase$의 선택적 저해제로서, 토마토 뿌리조직으로부터 분리한 마이크로솜에서 ATPase의 특성을 조사하기 위하여 사용되었다. Thapsigargin은 마이크로솜 ATPase 활성을 농도의존적으로 저해하였으며, $10\;{\mu}M$ 농도에서 총활성의 약 30%를 저해하였다. 이것은 뿌리조직에서 $Ca^{2+}-ATPase$의 활성이 매우 낮다는 것을 고려할 때, thapsigargin이 뿌리조직의 주된 ATPase 활성인 원형질막 및 액포막의 $H^+-ATPase$ 활성을 저해할 가능성을 보인다. Thapsigargin의 효과는 ${NO_3}^-$를 사용하여 액포막 $H^+-ATPase$ 활성을 저해하였을 때 현저하게 감소하였다. 그러나, thapsigargin의 효과는 원형질막의 $H^+-ATPase$ 활성에는 영향을 미치지 않아, thapsigargin이 토마토 뿌리조직에서 액포막 $H^+-ATPase$를 선택적으로 저해함을 보여준다.

• Applied Biological Chemistry
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• 제41권2호
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• pp.130-136
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• 1998

토마토의 뿌리조직에 존재하는 여러 가지 이온이동 기작을 밝혀내기 위하여 뿌리조직으로부터 마이크로솜을 분리하였고, 마이크로솜에 존재하는 이온점프(ATPase)의 활성을 측정하였다. 원형질막과 액포막에 위치하는 $H^+-ATPase$들의 활성은 각각의 선택적 저해제인 vanadate와 $NO^-_3$를 이용하여 평가하였고, 이들의 활성은 각각 마이크로솜 ATPase 총활성의 ${\sim}30%$, ${\sim}38%$로 나타났다. 이들 두 가지 저해제 효과는 additive하게 나타났으며, 전체활성의 약 $50{\sim}70%$를 저해함을 확인하였다. 마이크로솜 ATPase활성은 pH의 영향을 받으며, 최대 활성은 pH 7.4에서 나타났다. ATPase 활성은 또한 10 mM 이상의 $K^+$에 의해서 약 30% 증가를 보였으며, $K^+$에 의한 활성촉진 효과는 $Na^+$에 의해서 완전히 저해되었다. $K^+$에 의한 ATPase 활성증가 기작을 조사하기 위해, 반응용액의 $K^+$농도를 조절하면서 선택적 저해제들의 효과를 측정하였다. 반응용액에 $K^+$이 없는 조건과 120mM $K^+$을 함유하는 조건에서 vanadate는 ATPase 활성을 동일하게 27% 저해하였으나, $NO^-_3$는 각각의 조건에서 32%, 40% 저해하였다. 이것은 $NO^-_3$에 민감한 액포막의 $H^+-ATPase$활성이 $K^+$에 의해서 촉진된다는 것을 시사한다. 마이크로솜 ATPase 활성은 $Ca^{2+}$에 의해서도 저해되었으며, $NO^-_3$는 $Ca^{2+}$에 의한 저해효과를 억제하였다. 이상의 결과는 토마토 뿌리조직의 마이크로솜 ATPase중 액포막의 $H^+-ATPase$ 활성이 $K^+$에 의해서 증가하며, $Ca^{2+}$에 의해서 저해되는 것을 보여준다.

• The Korean Journal of Physiology
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• 제17권2호
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• pp.161-168
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• 1983

Studies on the effects of vanadate for Na-K-ATPase activity were carried out with rabbit renal cortex. 1) Na-K-ATPase activity was inhibited with the concentrations of vanadate in incubation medium. The vanadate concentration at which activity was inhibited by 50%$(ID_{50})$ was $10^{-6}M$ and Hill coefficient was 1.00. 2) The fractional inhibition by constant concentration of vanadate decreased with increasing enzyme concentration. 3) Increasing $K^+$ and $Na^+$ concentrations in incubation medium diminished the ability to inhibit Na-K-ATPase by vanadate whereas increasing $K^+$ and $Mg^{2+}$ concentrations potentiated the inhibition of Na-K-ATPase by vanadate. 4) Vanadate didn't inhibit Na-K-ATPase at pH 6.6. Increasing pH potentiated the inhibition of Na-K-ATPase activity. 5) Vanadate inhibited Na-K-ATPase activity reversibly in all range of concentrations in dilution experiment. These results show that vanadate inhibits Na-K-ATPase activity with interacting at $KE_2$ state reversibly.

• Journal of Microbiology and Biotechnology
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• 제9권4호
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• pp.414-421
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• 1999

Helicobacter pylori were found to be resistant to azide but sensitive to vanadate, suggesting that defect in the P-type ATPase activity rather than F-type ATPase would be lethal to cell survival or growth. To elucidate the relationship between this enzyme inhibition and H. pylori death, we determined the effect of omeprazole (OMP) plus vanadate on enzyme activity and cell growth. The minimum inhibitory concentration (MIC; ca. 0.8$\mu$mol/disk) of vanadate for H. pylori growth was lowered over l0-fold with the aid of OMP, whereby its inhibitory potential toward the P-type ATPase activity was diametrically increased. Alternatively, we found that this enzyme activity was essential for active transport in H. pylori. From these observations, we strongly suggest that the immediate cause of the growth inhibition of H. pylori cells with OMP and/or vanadate might be defective in the cell's active transport due to the lack of P-type ATPase activity. From the spectral data with circular dichroism (CD) spectroscopy, we found that activated OMP (OAS) at concentration below MIC did not disrupt helical structures of membrane proteins. Separately, we determined the cytopathic effect of OAS by SDS-PAGE, indicating the change in the production of cytoplasmic protein but not cell membrane.

• Applied Biological Chemistry
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• 제44권2호
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• pp.67-72
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• 2001

식물 뿌리세포의 원형질막 및 액포막에 위치하는 $H^+-ATPase$들은 세포의 여러 가지 생리활성에 중요한 역할을 수행한다. $H^+-ATPase$의 생리활성 특성을 조사하기 위하여 토마토 뿌리조직으로부터 마이크로솜을 분리하고, $H^+-ATPase$의 활성에 미치는 음이온의 효과를 조사하였다. 다양한 종류의 음이온들이 $H^+-ATPase$의 활성을 저해함을 확인하였으며, 이들 중 특히 효소의 저해정도가 다른 citrate와 인산을 선택하여 작용특성을 조사하였다. Citrate에 의한 ATPase활성저해는 3 mM 이상에서 나타났고, 20 mM citrate는 활성을 50-60% 저해하였다. 그러나, citrate의 저해효과는 $Mg^{2+}$의 농도를 증가시킬수록 감소하여, citrate에 의해 저해된 ATPase 활성은 $Mg^{2+}$에 의해 회복되는 것으로 나타났다. 즉, 7 mM $Mg^{2+}$을 첨가하였을 때, citrate에 의한 활성저해는 관측되지 않았고 ATPase활성은 대조활성과 비슷한 수준으로 회복되었다. 이러한 결과로 부터 citrate는 Mg^{2+}을 chelation함으로써$H^+-ATPase$의 활성을 저해함을 확인하였다. 한편, 인산에 의한 ATPase활성저해는 3 mM 이상의 농도에서 나타났고, 30 mM 인산은 ATPase의 활성을 50% 저해하였다. 인산에 의해서 저해된 ATPase의 활성은 $Mg^{2+}$니 농도증가에 의해 회복되지 않아, 인산에 의한 저해효과는 $Mg^{2+}$과 무관하였다.

• 약학회지
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• 제29권2호
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• pp.76-89
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• 1985

The effects of ginseng saponin on the activity, phosphorylation, [$^{3}$H] ouabain binding and light scattering (disruption) of purified $Na^{+}$ ,$K^{+}$ -ATPase isolated from the outer medulla of sheep kidney were compared to those of gypsophila saponin, sodium dodecylsulfate (SDS), and Triton X-100 on the same parameters. $Na^{+}$ , $K^{+}$ -ATPase activity, phosphorylation, and [$^{3}H$] ouabain binding were inhibited by ginseng saponin (triol>total>diol), SDS, or Triton X-100, but increased by gypsophila saponin. Low doses of ginseng saponin (3.mu.g saponin/.mu.g protein) decreased phosphorylation sites and ouabain binding site concentration (Bmax) without any change of turnover number and affinity for ouabain binding which were decreased by high dose of ginseng saponin (over 10.mu.g saponin/.mu.g protein), SDS or Triton X-100. On the other hand, gypsophila saponin increased the affinity without any change of Bmax for ouabain binding. Inhibition of $Na^{+}$ ,$K^{+}$ -ATPase activity by ginseng saponin and SDS or Triton X-100 appeared before and after decrease in light scattering, respectively. These data suggest that ginseng saponins (total, diol, triol saponin) inhibit $Na^{+}$ , $K^{+}$ -ATPase activity by specific direct and general detergent action at low and high concentrations, respectively, and this inhibitory action of ginseng sapornin to $Na^{+}$ , $K^{+}$ -ATPase is not general action of all saponins.

• 대한한의학회지
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• 제16권1호통권29호
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• pp.281-294
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• 1995

The effect of Sam Hwa San on the Na-K-ATPase activity was evaluated in microsomal fraction prepared from rabbit cerebral cortex to determine whether Sam Hwa San affects Na-K-ATPase activity of nervous system. Sam Hwa San markedly inhibited the Na-K-ATPase activity in a dose-dependent manner with an estimated $I_{50}$ of 0.12%. Optimal pH for the Na-K-ATPase activity was at 7.5 in the presence or absence of Sam Hwa San. The degree of inhibition by the drug more increased at acidic and alkalic pHs than neutral pH. Kinetic studies of substrate and cationic activation of the enzyme indicate classic noncompetitive inhibition fashion for ATP, Na and K, showing significant reduction in Vmax without a change in Km. Dithiothreitol, a sulfhydryl reducing reagent, partially protects the inhibition of Na-K-ATPase activity by Sam Hwa San. Combination of Sam Hwa San and ouabain showed higher inhibition than cumulative inhibition. These results suggest that Sam Hwa San inhibits Na-K-ATPase activity in central nervous system by reacting with, at least a part, sulfhydryl group and ouabain binding site of the enzyme protein, but with different binding site from those of ATP, Na and K.

• Bulletin of the Korean Chemical Society
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• 제23권3호
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• pp.454-458
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• 2002

Furo[3,2-h]quinoline derivatives were synthesized as a gastric $H^+$/$K^+$-ATPase inhibitors. The oxycyclization of 7 and 8-positions in quinoline potentiated the inhibitory activity, while no significant changes in biological activity were observed by the variation of substituents in furan ring. The several furo[3,2-h]quinoline derivatives were worthy of in vivo investigation for their anti-secretory and anti-ulcer activity.

• The Korean Journal of Physiology
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• 제11권2호
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• pp.1-7
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• 1977

The activity of the $Ca^{++}$ activated adenosinetriphosphatase (Ca-ATPase) of actomyosin systeme of rabbit and frog skeletal muscle has been studied at varying pH and temperature. The PH optima of the Ca-ATPase activity of the rabbit actomyosin was rather broad. Over the temperature range of $16-36^{\circ}C$ activity of the enzyme was not appreciably changed between pH 6.4-8.5; below and above which it rapidly reduced. The pH at the inflection point of the enzyme activity increased as temperature decreased, showing the ${\bigtriangleup}pH\;inflection/{\bigtriangleup}T$ of approximately $-0.018\;unit/^{\circ}C$. Consequently, $(OH^-)/(H^+)$ ratio at the inflection point was constant regardless of assay temperature. In the frog actomyosin systems the Ca-ATPase activity was not apparently altered between PH 6.4-7.0 when the incubation temperature was $15{\sim}30^{\circ}C$. Outside of this range of pH, however, the enzyme activity was dramatically decreased. The pH of the inflection point changed inversely with temperature. ${\bigtriangleup}pH\;inflection/{\bigtriangleup}T$ at the acidic side was approximately $-0.018\;unit/^{\circ}C$, whereas that at the alkaline side it was about $-0.037\;unit/^{\circ}C$. The Arrhenius Plot on the Ca-ATPase activity at constant $(OH^-)/(H^+)$ ratio of 1.0 was not linear, but showed break at arround $20^{\circ}C$ for both rabbit and frog actomyosin Preparations. From these results it was speculated that pH dependence of Ca-ATPase activity of rabbit actomyosin systems might reflect titrations of histidine-imidazole and -SH groups, and that of the frog actomyosin represents titrations of histidine-imidazole and lysyllysine ${\alpha}-NH_2$ groups.

• The Korean Journal of Physiology
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• 제18권2호
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• pp.163-169
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• 1984

Vanadate가 Na-K-ATPase의 최적 PH에 영향을 미치는 기전에 효소의 $Na^+$과 $K^+$의 결합부위가 관여하는지를 밝히기 위하여 가토 신피질 microsome을 이용하여 실험해서 다음과 같은 결과를 얻었다. 1) $5{\times}10^{-6}M$ vanadate 존재시 Na-K-ATPase의 추적 PH가 6.8로 이동하였다. 2) PH 6.8과 7.4에서 Na-K-ATPase활성의 비는 vanadate농도가 증가함에 따라 증가하였다. 3) Vanadate 존재시에도 용액의 $Na^+$농도가 50mM 이하일 때는 pH 7.4에서의 효소활성이 6.8보다 높았고 오히려 그 비는 대조군보다 증가하였다. 4) $K^+$농도가 7mM 이하일 때는 vanadate 존재시도 Na-K-ATPase의 활성이 PH 7.4에서 더 높았다. 5) 5mM $K^+$존재하에서도 vanadate농도를 $10^{-5}M$로 증가시키면 최적 pH는 6.8로 이동하였다. 6) $K^+-pNPPase$활성은 PH가 낮을수록 증가하였고 $10^{-7}M$ vanadate에 의한 억제 정도는 PH가 낮을수록 감소하였다. 이상의 결과로 볼때 vanadate 존재시 Na-K-ATPase의 최적 PH는 6.8로 이동하였으며 이것은 PH가 낮아 펄 때 나타나는 vanadate자체의 성질 변화 때문은 아니며 vanadate 존재시 pH가 효소의 $Na^+$과 $K^+$결합부위에 영향을 주어 나타나는 것으로 생각된다.