• 약학회지
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• 제49권4호
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• pp.275-283
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• 2005

The purpose of the present study was to kinetically investigate the carrier-mediated uptake in the hepatic transport of organic anions, and to simulate the 'in vivo counter-transport' phenomena, using kinetic model which was developed in this study. The condition that the mobility of carrier-ligand complex is greater than that of free carrier is not essential for the occurrence of 'counter-transport' phenomenon. To examine the inhibitory effects on the initial uptake of organic anions by the liver, it is necessary to judge whether the true counter-transport mechanism (trans-stimulation) is working or not. Effects of bromophenol blue (BPB) or bromosulfophthalein (BSP) on the plasma disappearance curves of a 1-anilino-8-naphthalene sulfonate (ANS) were then kinetically analyzed based on a flow model, in which the ligand is eliminated only from the peripheral compartment (liver compartment). Moreover, 'in vivo counter-transport' phenomena were simulated based on the perfusion model which incorporated the carrier-mediated transport and the saturable intracellular binding. The 'in vivo counter-transport' phenomena in the hepatic transport of a organic anions were well demonstrated by incorporating the carrier-mediated process. However, the 'in vivo counter-transport' phenomena may be also explained by the enhancement of back diffusion due to the displacement of intracellular binding. In conclusion, one should be more cautious in interpreting data obtained from so-called 'in vivo counter-transport' experiments.

• 한국염색가공학회지
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• 제26권1호
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• pp.1-6
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• 2014

We have designed and synthesized the colorimetric chemosensor through the reactions of 1,2-anthraquinone and indol-3-carboxaldehyde. Due to its well conjugated D-${\pi}$-A system and the existence of NH-fragment in indole moiety, we expected that the chemosensor can detect target anions with NH-fragment in indole part of the structure. In this regard, UV-Vis absorption spectra were measured to investigate sensing properties of the probe toward different anions in DMSO. This chemosensor shows to detect fluoride anions with absorption change in intensity. These properties are mainly related to the deprotonation effect. ICT system in this molecule was also observed by the computational approach using Material Studio 4.3 package.

• 약학회지
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• 제47권2호
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• pp.110-119
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• 2003

The purpose of the present study was to kinetically investigate the carrier-mediated uptake in the hepatic transport of organic anions, and to simulate the ″in vivo counter-transport″ phenomena, using kinetic model which was developed in this study. The condition that the mobility of carrier-ligand complex is greater than that of free carrier is not essential for the occurrence of ″counter-transport″ phenomenon. To examine the inhibitory effects on the initial uptake of a ligand by the liver, it is necessary to judge whether the true counter-transport mechanism (trans-stimulation) is working or not. The initial plasma disappearance curves of a organic anion were then kinetically analyzed based on a flow model, in which the ligand is eliminated only from the peripheral compartment (liver compartment). Moreover, ″in vive counter-transport″ phenomena were simulated based on the perfusion model which incorporated the carrier-mediated transport and the saturable intracellular binding. The ″in vivo counter-transport″ phenomena in the hepatic transport of a organic anion were well demonstrated by incorporating the carrier-mediated process. However, the ″in vivo counter-transport″ phenomena may be also explained by the enhancement of back diffusion due to the displacement of intracellular binding. In conclusion, one should be more cautious in interpreting data obtained from so-called ″in vivo counter-transport″ experiments.

• 대한화학회지
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• 제29권4호
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• pp.365-371
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• 1985

이온쌍크로마토그래피에 의한 유기 및 무기음이온을 분리하는데 반대이온으로서 양이온 염료인 메틸렌 부루$(MTB^+)$를 사용하여 흡수가 되지 않는 음이온 시료를 간접적으로 분광광도 검출기로서 가시영역인 665nm에서 검출할 수 있었으며 혼합시료의 분리를 시도한 결과 좋은 분리도와 높은 감도를 보여주었다. 또한 여러 실험조건에서 분리인자를 측정하여 머무름 기구를 조사하였다. 본 연구에서 머무름 기구는 $MTB^+$가 고정상에 일차층(primary layer)을 형성하고 반면 음이온 시료 또는 이동상에 존재하는 다른 음이온들이 경쟁적으로 이차층(secondary layer)을 형성하는 ion-interaction model임을 확인하였다.

• 대한화학회지
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• 제29권5호
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• pp.559-560
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• 1985

• Bulletin of the Korean Chemical Society
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• 제15권4호
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• pp.306-310
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• 1994

• Bulletin of the Korean Chemical Society
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• 제19권10호
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• pp.1032-1036
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• 1998

Intercalation compounds of organic anions into layered double hydroxides (LDH) are synthesized by the coprecipitation route. X-ray diffraction data reveal that the intercalated terephthalate (TP), naphthalene-2,6-disulfonate (NA26), and anthraquinone-2,6-disulfonate (AQ26) are arranged with their molecular planes perpendicular to the hydroxide layer. HPLC data show that 26.2% of TP and 73.8% of AQ26 are cointercalated, whereas NA26 is not intercalated into the Zn/Al-LDH. These results indicate the possibility of a molecular recognition ability of Zn/Al-LDH. The molecular recognition ability of intercalation into Zn/Al-LDH is in the order AQ26 > TP >> NA26.

• 한국토양비료학회지
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• 제19권2호
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• pp.139-145
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• 1986

담배식물이 흡수한 질산태질소가 조직중(組織中)에서 환원 되므로서 양(陽)이온과 음(陰)이온성분간(成分間)의 평형(平衡)에 미치는 영향을 구명하기 위하여 질소원(窒素源)을 달리한 배양액(培養液)으로 재배(栽培)하면서 무기(無機) 양음(陽陰)이온총량차이(總量差異)를 조사하고 질소환원(窒素還元) 및 유기산함량(有機酸含量)의 변화(變化)와 이온총량차이(總量差異)와의 관계(關係)를 검토(檢討)한 결과(結果) 1. $NO_3-N$ 배양액에서 자란 식물은 $NH_4-N$ 배양액의 것보다 양(陽)이온총량(總量)이 높았다. 무기음(無機陰)이온총량(總量)은 $NO_3+NH_4$혼합배양액(混合培養液)에서 가장 높게 나타났으나 $NO_3-N$ 배양액에서 가장 낮아서 무기 양음(陽陰)이온총량차이(總量差異)가 가장 컸고 $NH_4{^+}$가 함유된 배양액에서는 무기양음이온 총량차이가 비슷하여 무기이온으로서 거의 이온균형(均衡)이 유지(維持)되었다. 2. 식물체중(植物體中) 유기산(有機酸)은 malic acid의 분포가 가장 컸으며 $NO_3-N$ 배양액식물은 유기산(有機酸)이 다량함유(多量含有)되어 있으나 $NH_4-N$ 또는 혼합배양액(混合培養液)의 것은 거의 검출(檢出)되지 않았다. $NO_3-N$ 배양액식물(培養液植物)은 유기산총량(有機酸總量)이 무기음(無機陰)이온 총량(總量)보다 초과(超過)되어 유기산(有機酸)에 의한 이온균형(均衡)비율이 크나 $NH_4-N$ 배양액식물은 이온균형(均衡)에 차지하는 유기산(有機酸)비율이 극히 소량이었다. 3. $NO_3-N$식물(植物)은 질산환원(窒酸還元)이 왕성하게 진행되므로서 유리(遊離)된 양(陽)이온과의 이온균형(均衡)을 위하여 유기산(有機酸)이 다량(多量) 함유(含有)되었다.

• 한국토양비료학회지
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• 제19권3호
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• pp.223-229
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• 1986

1. 질산염영양액(窒酸鹽營養液)으로 관수(灌水)하여 재배(栽培)한 담배식물(cv. NC82)의 엽서별(葉序別) 이온균형(均衡)을 조사(調査)한 결과(結果) 무기양(無機陽)이온과 무기음(無機陰)이온의 총량(總量)은 출엽순서별(出葉順序別)로 차이(差異)가 있어 하위엽(下位葉)에서는 무기양(無機陽)이온이 무기음(無機陰)이온보다 3배(倍)이상 차이(差異)(5차엽(次葉))를 보이나 상위(上位)의 어린잎(10차엽(次葉))에서는 1.3배(倍)로 떨어졌다. 2. 양(陽)이온의 대부분은 $K^+$, $Ca^{{+}{+}}$, $Mg^{{+}{+}}$이었으며 K+Ca는 출엽(出葉)된 모든 잎에서 양(陽)이온의 80%정도로 일정한 비율이 유지되었다. 그 구성비율(構成比率)은 오랜잎일수록 $Ca^{{+}{+}}$ 높고 엽령(葉齡)이 커질수록 증가(增加)하나, 어린잎 쪽에서는 $K^+$의 비율이 높으며 엽령(葉齡)에 따라 점차 낮아지는 경향이었다. 3. 양(陽)이온총량(總量)은 무기음(無機陰)이온과 유기산(有機酸) 음(陰)이온으로 이온균형(均衡)이 유지(維持)되었으며 하엽(下葉)에서는 유기산(有機酸) 음(陰)이온에 의존(依存)한 이온균형(均衡)이 무기음(無機陰)이온보다 컸으나 상엽(上葉)으로 갈수록 점차 반대 경향으로 나타났다. 4. 이온총량(總量)이 큰 하엽(下葉)에서는 양음(陽陰)이온 총량(總量) 차이(差異)가 나타났으나 상엽(上葉)에서는 균형(均衡)이 거의 유지(維持)되었다. 하엽(下葉)의 이온총량차(總量差)는 일부(一部) 유기산석회염(有機酸石灰鹽)이 침전(沈澱)되어서 수산(蓚酸)이 검출되지 않았기 때문인 것 같다.

• Journal of Pharmaceutical Investigation
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• 제22권1호
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• pp.11-21
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• 1992

The effects of colchicine on the plasma elimination and biliary excretion of various organic anions in rats were examined. Elimination of indocyanine green (ICG) or rose bengal (RB) from plasma was significantly delayed when rats were treated with colchicine (3 mg/kg body weight) 3 hr prior to the administration of the dye. On the other hand, disappearance of sulfobromophthalein (BSP) or bromophenol blue (BPB) from plasma was not influenced by colchicine. The plasma disappearance and biliary excretion of organic anions were kinetically analyzed based on a compartment model, in which the deep compartment and the unknown disposition are incorporated. The transfer rate constants of ICG or RB, $k_{23}$ (from the liver to the deep compartment) and $k_{3B}$ (from the deep compartment to the bile), were decreased by colchicine, but those of BSP or BPB were not changed. A mechanism for the decrease in the $k_{23}$ and $k_{3B}$ values for ICG and RB might be explained by a inhibition of colchicine to the intracellular cytoskeleton. The hepatocellular distribution of RB or BPB was then determined. BPB mainly distributed to the cytosolic fraction, but RB distributed to each hepatocyte organelle. Taken together. it was suggested that ICG or RB is transported through hepatocytes into bile with the aid of the cytoskeleton, whereas BSP or BPB is handled by hepatocytes in a different way.