• IMMUNE NETWORK
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• 제5권2호
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• pp.68-77
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• 2005

Background: Costimulation is a critical process in Ag-specific immune responses. Both B7.1 and CD28 molecules have been reported to stimulate T cell responses during antigen presentation. Therefore, we tested whether Ag-specific immune responses as well as protective immunity are influenced by coinjecting with B7.1 and CD28 cDNAs in a mouse HSV-2 challenge model system. Methods: ELISA was used to detect levels of antibodies, cytokines and chemokines while thymidine incorporation assay was used to evaluate T cell proliferation levels. Results: Ag-specific antibody responses were enhanced by CD28 coinjection but not by B7.1 coinjection. Furthermore, CD28 coinjection increased IgG1 production to a significant level, as compared to pgD+pcDNA3, suggesting that CD28 drives Th2 type responses. In contrast, B7.1 coinjection showed the opposite, suggesting a Th1 bias. B7.1 coinjection also enhanced Ag-specific Th cell proliferative responses as well as production of Th1 type cytokines and chemokines significantly higher than pgD+pcDNA3. However, CD28 coinjection decreased Ag-specific Th cell proliferative responses as well as production of Th1 types of cytokines and chemokine significantly lower than pgD+pcDNA3. Only MCP-1 production was enhanced by CD28. B7.1 coimmunized animals exhibited an enhanced survival rate as well as decreased herpetic lesion formation, as compared to pgD+pcDNA3. In contrast, CD28 vaccinated animals exhibited decreased survival from lethal challenge. Conclusion: This study shows that B7.1 enhances protective Th1 type cellular immunity against HSV-2 challenge while CD28 drives a more detrimental Th2 type immunity against HSV-2 challenge, supporting an opposite role of B7.1 and CD28 in Ag-specific immune responses to a Th1 vs Th2 type.

• Bulletin of the Korean Chemical Society
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• 제23권8호
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• pp.1121-1126
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• 2002

Two anhydrous crystal structures of fully dehydrated Cd2+ - and Cs+ -exchanged zeolite X, Cd32Cs28Si100Al92O384 (Cd32Cs28-X: a = 24.828(11) $\AA)$ and fully dehydrated Cd,sup>2+ - and Rb+ -exchanged zeolite X, Cd28Rb36Si100Al92O384 (Cd28Rb36-X: a = 24.794(2) $\AA$), have been determined by single-crystal X-ray diffraction techniques in the cubic space group Fd3 at $21(1)^{\circ}C.$ The structures were refined to the final error indices, R1 = 0.058 and R2 = 0.065 with 637 reflections for Cd32Cs28-X and R1 = 0.086 and R2 = 0.113 with 521 reflections for Cd28Rb36-X for which I > $3\sigma(I)$. In the structure of Cd,sub>32Cs28-X, 16 Cd2+ ions fill the octahedral sites I at the centers of the double six rings (Cd-O = $2.358(8)\AA$ and O-Cd-O = $90.8(3)^{\circ}$ ). The remaining 16 Cd2+ ions occupy site II (Cd-O = $2.194(8)\AA$ and O-Cd-O = $119.7(4)^{\circ})$ and six Cs+ ions occupy site II opposite to the single six-rings in the supercage; each is $2.322\AA$ from the plane of three oxygens (Cs-O = 3.193(13) and O-Cs-O = $73.0(2)^{\circ}).$ Aboutten Cs+ ions are found at site II', $1.974\AA$ into the sodalite cavity from their three oxygen plane (Cs-O = $2.947(8)\AA$ and O-Cs-O = $80.2(3)^{\circ}).$ The remaining 12 Cs+ ions are distributed over site III' (Cs-O = 3.143(9) and O-Cs-O= $59.1(2)^{\circ})$. In the structure of Cd28Rb36-X, 16 Cd2+ ions fill the octahedral sites I at the center of the double-sixrings (Cd-O = 2.349(15) and O-Cd-O = $91.3(5)^{\circ}$ ). Another 12 Cd2+ ions occupy two different II sites (Cd-O = $2.171(18)/2.269(17)\AA$ and O-Cd-O = $119.7(7)/113.2(7)^{\circ}).$ Fifteen Rb+ ions occupy site II (Rb-O = $2.707(17)\AA$ and O-Rb-O = $87.8(5)^{\circ}).$ The remaining 21 Rb+ ions are distributed over site III' (Rb-O = $3.001(16)\AA$ and O-Rb-O = $60.7(4)^{\circ})$. It appears that the smaller and more highly charged Cd2+ ions prefer sites I and Ⅱ in that order, and the larger Rb+ and Cs+ ions, which are less able to balance the anionic charge of the zeolite framework, occupy sites II and II' with the remainder going to the least suitable site in the structure, site III'.The maximum Cs+ and Rb+ ion exchanges were 30% and 39%, respectively. Because these cations are too largeto enter the small cavities and their charge distributions may be unfavorable, cation-sieve effects might appear.

• 센서학회지
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• 제6권4호
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• pp.252-257
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• 1997

ITO(indium-tin-oxide)/PPV(poly(p-phenylenevihylene))/음극 전극의 단층구조와 ITO /PVK(poly(N-vinylcarbazole))/PPV/음극전극의 이층구조를 가진 유기 EL(electroluminescence) 소자를 제작하였으며, 전기-광학적 특성을 측정하였다. 실험 결과, 단층구조에서는 PPV막의 열변환 온도를 $140^{\circ}C$에서 $260^{\circ}C$로 증가할수록 최대 휘도가 $118.8\;cd/m^{2}$(20V)에서 $21.14\;cd/m^{2}$(28V)으로 감소하였고, EL 스펙트럼의 최대 피크가 500nm에서 580nm로 이동하였다. 또한, 음극전극의 일함수가 낮을수록 소자의 발광휘도와 주입 전류는 증가되었다. 이층구조에서는 PVK막의 농도가 감소함에 따라 발광휘도가 $70.71\;cd/m^{2}$(32V)에서 $152.7\;cd/m^{2}$(26V)으로 증가하였다.

• 태양에너지
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• 제11권3호
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• pp.74-83
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• 1991

본 논문은 substrate의 온도를 $200{\pm}1^{\circ}C$ 정도로 유지하며 진공저항 가열 증착법을 이용하여 (p)ZnTe/(n)Si 태양전지와 (n)CdS-(p)ZnTe/(n)Si 복접합 박막을 제작한 후 그 전기적 특성을 조사, 비교하였다. 제작한 (p)ZnTe/(n)Si 태양전지와(n)CdS-(p)ZnTe/(n)Si 복접합 박막에 대하여 $100[mW/cm^2]$의 광조사 하에서 특성을 조사한바 다음과 같은 결과를 얻었다. 단략전류$[mA/cm^2]$ (p)ZnTe/(n)Si:28 (n)CdS-(p)ZnTe/(n)Si:6.5 개방전압[mV] (p)ZnTe/(n)Si:450 (n)CdS-(p)ZnTe/(n)Si:250 충실도, FF (p)ZnTe/(n)Si:0.65 (n)CdS-(p)ZnTe/(n)Si:0.27 변환효율[%] (p)ZnTe/(n)Si:8.19 (n)CdS-(p)ZnTe/(n)Si:2.3 제작된 박막은 열처리에 의해 성능이 향상되지만 (p)ZnTe/(n)Si 태양전지는 약 $470^{\circ}C$ 이상의 온도와 15분 이상의 열처리 시간에서 그리고 (n)CdS-(p)ZnTe/(n)Si 복접합 박막은 약 $580^{\circ}C$ 이상의 온도와 15분 이상의 열처리 시간에서는 박막의 각종 구조결함으로 인한 감소현상을 나타내었다. 열처리 온도의 증가에 따라 박막의 표면저항은 감소하였다.

• 대한수의학회지
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• 제35권3호
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• pp.543-552
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• 1995

카드뮴이 BALC/c 마우스의 세포성면역능에 미치는 영향을 평가하고자 여러 농도의 카드뮴이 첨가된 음료를 장기간 동안 자유급식하고, 비장내 T helper 및 T suppressor cell의 분포도, 복강대식세포의 탐식능 및 시험관내에서 Con-A 및 LPS에 대한 비장세포의 증식능을 조사하여 다음과 같은 결과를 얻었다. 1. 각군의 6주간 체중 증가율은 대조군이 27.0%이었으며, 25, 50, 100 및 200ppm $CdCl_2$, 투여군의 체중증가율은 각각 28.54%, 28.31%, 20.49% 및 18.04%로 나타났다. 2. 체중당 비장무게(mg/g)는 대조군이 $4.34{\pm}0.23$이었으며, 25, 50, 100 및 200ppm $CdCl_2$, 투여군은 각각 $4.20{\pm}0.54$, $4.80{\pm}0.87$, $4.25{\pm}0.32$ 및 $4.40{\pm}0.32$이었다. 또한 총비장세포수(${\times}10^7$)는 대조군($24.29{\pm}5.98$)에 비해 25, 50, 100 및 200ppm $CdCl_2$, 투여군에서 각각 14.1%, 35.7%, 16.6% 및 22.0%증가하였다. 3. 총 $CD_4{^+}$ 세포수(${\times}10^7$)는 대조군이 $9.15{\pm}2.24$, 25, 50, 100 및 200ppm $CdCl_2$, 투여군은 각각 $10.40{\pm}2.04$, $12.04{\pm}3.08$, $10.20{\pm}3.16$ 및 $10.80{\pm}1.48$ 이었으며, 총 $CD_8{^+}$ 세포수(${\times}10^7$)는 대조군이 $2.32{\pm}0.56$, 각 실험군의 총세포수는 $2.54{\pm}0.27$, $3.12{\pm}0.80$, $2.25{\pm}0.70$ 및 $2.24{\pm}0.28$ 이었다. 한편, $CD_4{^+}/CD_8{^+}$ 비율은 50ppm 투여군($3.88{\pm}0.01$)을 제외하고 모든 실험군에서 대조군($3.97{\pm}0.02$)에 비해 유의하게 증가하였다(p<0.001). 4. 카드뮴 처리군의 SRBC에 대한 복강대식세포의 탐식능은 25 및 50ppm 투여군에서는 대조군에 비하여 유의하게 높았으나(p<0.05 및 p<0.01), 100 및 200ppm 투여군에서는 대조군과 유사하였다. 5. 시험관에서의 Con-A 및 LPS에 대한 비장림프구 증식반응은 LPS의 경우 카드뮴 농도에 비례하여 억제되었으나 Con-A에 대한 증식반응은 저농도($10^{-7}-10^{-6}M$)에서 증가된 양상을 보였다. 6. $CdCl_2$에 대한 비장세포의 세독독성은 $10^{-4}M$에서 특히 높았다. 이상의 결과는 카드뮴이 세포성면역반응에서 중요한 역할을 하는 T세포 아군의 분포도를 변화시키므로써 면역반응에 영향을 줄 수 있음을 시사한다.

• 한국초전도ㆍ저온공학회논문지
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• 제20권2호
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• pp.24-28
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• 2018

To understand the effects of Cd substitution for Cu, $(Pb_{0.5}Cu_{0.5-x}Cd_x)Sr_2(Ca_{0.7}Y_{0.3})Cu_2O_z$ (x = 0 ~ 0.5) compounds were synthesized and the structural and superconducting properties of the compounds were characterized. Resistivity data revealed that superconducting transition temperature rises initially up to x = 0.25 and then decreases as the Cd doping content increases. Room-temperature thermoelectric power decreases at first up to x = 0.25 and then increases with higher Cd doping content, indicating that the change in $T_c$ is mainly caused by the change in the hole concentration on the superconducting planes by the Cd doping. The non-monotonic dependence of the lattice parameters and the transition temperature with Cd doping content is discussed in connection with the possible formation of $Pb^{+2}$ ions and the removal of excess oxygen caused by Cd substitution in the charge reservoir layer. A correlation between transition temperature and c/a lattice parameter ratio was observed for the $(Pb_{0.5}Cu_{0.5-x}Cd_x)Sr_2(Ca_{0.7}Y_{0.3})Cu_2O_z$ system.

• 대한화학회지
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• 제11권4호
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• pp.179-184
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• 1967

pH 6.0~12.6 範圍에서 0.15M 타르타르酸鹽支持溶液 속에서의 Cd(II)플라로그람을 20$^{\circ}C 및 25$^{\circ}C에서 調査한 結果 pH 7.8 部分까지는 限界電流값 및 半波電位값이 一定하지만 같은 이온强度의 窒酸鹽支持溶液을 사용하였을 때에 비하여 半波電位값이 0.05 volt 負쪽으로 移行하고 있으며 限界電流값은 28% 감소되었다. pH 8.2 部分以上부터는 限界電流값이 急激하게 감소하다가 pH11.2~11.4 부근 以上부터 다시 急激히 증가하는 現象을 보여 주었다. 한편 pH 8.2 部分以上부터는 半波電位값은 pH증가에 따라 계속 負 쪽으로 移行하여 pH 12.6에서는 -0.78volt로 되었다. 可能한 電極反應機構를 假定하고 pH 9.4에 이르기 까지의 還元波變動의 原因을 檢討하였다.

• 분석과학
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• 제21권6호
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• pp.562-568
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• 2008

A novel two-dimensional cadmium(II)-nickel(II) bimetallic host clathrate, $[Cd{NH_2CH_2CH_2OH}_2Ni(CN)_4]{\cdot}3C_6H_5NH_2{\cdot}H_2O$, 1, has been synthesized and structurally characterized by X-ray single crystallographic method. The clathrate 1 crystallizes in the monoclinic system, space group $P2_1/c$ with a = 14.370(3), b = 7.728(1), c = 28.172(4) ${\AA}$, ${\beta}=97.58(1)^{\circ}$, V = 3101.1(9) ${\AA}^3$, Z = 4. The host framework of the clathrate 1 is built of the cyanide bridges between octahedral Cd(II) atom and square planar Ni(II) atom. The octahedral Cd atoms ligated by two 2-aminoethanol molecules and four cyanide ligands bridged with square planar Ni atoms. The Ni atoms bridges to four Cd atoms via cyanides is made up of puckered quadrangles of composition $\{CdNi(CN)_2\}_2$, all edges are shared. This cyanide bridges form an infinite two-dimensional host networks stacking along b axis. 2-Aminoethanol ligands bond to Cd atom through N atom as a monodentate ligand in the axial position and four cyanides take an equatorial plane with all in trans-configurations. The aniline guest molecules and water molecules are located in between the host layer sheets, respectively.

• 혜화의학회지
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• 제17권2호
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• pp.51-68
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• 2008

The effect of combinational treatment of oral HTGMB and topical CSGMB ("H&C" hereinafter) on the changes of dermal inflammation index and immune system were studied using NC/Nga atopic dermatitis animal model. 1. Through naked eye examination, H&C ameliorated atopic dermatitis compared to the control group. Significant reduction of dermal inflammation index was observed after 12 weeks of treatment. 2. The H&C treated group showed 51% increase in the number of immune cells in DLN, and 59% increase in the number of immune cells is dorsal skin. 3. The H&C treated group showed decrease of 26%, 8%, 59% in CD19+, CD3+/CD69+, B220+/IgE+ cells in DLN respectively. On the other hand, CD3+, CD8+, CD4+ cells were increased by 8%, 31%, 12%, respectively. 4. The H&C treated group showed significant decrease of 38% and 47% in B220+/IgE+, CD11b+/Gr-1+ cells within dorsal skin respectively. Also, a decrease in CCR3+ cells by 21% was observed. 5. Significant decrease of the production of IL-4, IL-5, GM-CSF by 39%, 65%, 60% respectively, in spleen cells activated with CD3 and CD28 were observed in the H&C treated group. The results above strongly suggest significance of anti-atopic dermatitis effect of combinational treatment of oral HTGMB and topical CSGMB through immune modulation. Further applications in clinical use of the treatment are anticipated.

• Natural Product Sciences
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• 제13권4호
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• pp.283-288
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• 2007

Acanthopanacis Cortex (AC) has been popularly used as an herbal medicine for medical treatment of rheumatoid arthritis, insomnia, impotence and diabetes. Here, we investigated immunostimulating effects of the aqueous extract of AC on macrophage. We studied nitric oxide (NO) and tumor necrosis factor (TNF)-${\alpha}$ release in response to AC treatment, as they are important secretory products of macrophage. AC alone induce the NO and TNF-${\alpha}$ production. AC increase c-Jun NH2-terminal kinase 1/2 (JNK) and extracellular signal-regulated kinase (ERK) phosphorylation but does not p38 activation in RAW 264.7 cells. Also AC resulted in the enhanced cell-surface expression of CD80 and CD14. In addition, AC resulted in enhanced T cell-stimulatory capacity and increased T cell secretion of interferon (IFN)-gamma. After feeding with AC to mouse for 10 days, the change of $CD28^+$ and $CD40^+$ population was analyzed. AC increased $CD28^+$ population in splenocytes in vivo. These studies indicate that AC induces macrophage activation and suggest the possible use of AC in macrophage-based immunotherapies.