• 제목/요약/키워드: $Ca^{2+}$ ion

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Ca2+-regulated ion channels

  • Cox, Daniel H.
    • BMB Reports
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    • 제44권10호
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    • pp.635-646
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    • 2011
  • Due to its high external and low internal concentration the $Ca^{2+}$ ion is used ubiquitously as an intracellular signaling molecule, and a great many $Ca^{2+}$-sensing proteins have evolved to receive and propagate $Ca^{2+}$ signals. Among them are ion channel proteins, whose $Ca^{2+}$ sensitivity allows internal $Ca^{2+}$ to influence the electrical activity of cell membranes and to feedback-inhibit further $Ca^{2+}$ entry into the cytoplasm. In this review I will describe what is understood about the $Ca^{2+}$ sensing mechanisms of the three best studied classes of $Ca^{2+}$-sensitive ion channels: Large-conductance $Ca^{2+}$-activated $K^+$ channels, small-conductance $Ca^{2+}$-activated $K^+$ channels, and voltage-gated $Ca^{2+}$ channels. Great strides in mechanistic understanding have be made for each of these channel types in just the past few years.

비이온성 계면활성제의 미셀 콜로이드에 의한 $Ca^{2+}$의 은폐에 대한 연구 (The Study for the Sequestration of $Ca^{2+}$ by the Micelle Colloid of Nonionic Sunactants)

  • 권오윤;백우현
    • 한국환경과학회지
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    • 제1권1호
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    • pp.69-76
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    • 1992
  • The effects of $Ca_{2+}$ ion on the formation of micelle colloid of nonionic surfactants, nonylphenol-(ethylene oxide)n [NP-(EO)n: n= 11, 40, 100) were investigated by the iodine solubilization method. The characteristics of spectra depended on the concentration of $Ca_{2+}$ ion and the number of EO unit. Above CMC(critical micelle concentration), the intensity of the CT (charge transfer) band by the addition of $Ca_{2+}$ ion for the NP-(EO)11 and NP-(EO)40 increased and when decreased and for the NP-(EO)In continuously increased. The increase in the intensity of CT band were attributed to the compactness of micelle in the presence of $Ca_{2+}$ ion. These phenomena may be explained by the fact that the linear ethylene oxide (EO) chain, relatively free to assume various configuration in aqueous solution, could form a pseudo-crown ether structures capable of forming complexes with $Ca_{2+}$ ion.

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Structural basis of Ca2+ uptake by mitochondrial calcium uniporter in mitochondria: a brief review

  • Jiho, Yoo
    • BMB Reports
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    • 제55권11호
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    • pp.528-534
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    • 2022
  • Mitochondria are cellular organelles that perform various functions within cells. They are responsible for ATP production, cell-signal regulation, autophagy, and cell apoptosis. Because the mitochondrial proteins that perform these functions need Ca2+ ions for their activity, mitochondria have ion channels to selectively uptake Ca2+ ions from the cytoplasm. The ion channel known to play the most important role in the Ca2+ uptake in mitochondria is the mitochondrial calcium uniporter (MCU) holo-complex located in the inner mitochondrial membrane (IMM). This ion channel complex exists in the form of a complex consisting of the pore-forming protein through which the Ca2+ ions are transported into the mitochondrial matrix, and the auxiliary protein involved in regulating the activity of the Ca2+ uptake by the MCU holo-complex. Studies of this MCU holo-complex have long been conducted, but we didn't know in detail how mitochondria uptake Ca2+ ions through this ion channel complex or how the activity of this ion channel complex is regulated. Recently, the protein structure of the MCU holo-complex was identified, enabling the mechanism of Ca2+ uptake and its regulation by the MCU holo-complex to be confirmed. In this review, I will introduce the mechanism of action of the MCU holo-complex at the molecular level based on the Cryo-EM structure of the MCU holo-complex to help understand how mitochondria uptake the necessary Ca2+ ions through the MCU holo-complex and how these Ca2+ uptake mechanisms are regulated.

수용액 중에서 비이온성 계면활성제와 요오드간의 상호작용에 미치는 $Ca^{2+}$의 영향 (The Effects of $Ca^{2+}$on the Interaction of Nonionic Surfactant with Iodine in Aqueous Solution)

  • 권오윤;백우현
    • 대한화학회지
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    • 제36권5호
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    • pp.621-626
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    • 1992
  • 수용액 중에서 요오드와 $4-(C_9H_{19})C_6H4_O(CH_2CH_2O)_{40} [NP-(EO)_40]$간의 charge transfer(CT) 상호작용에 미치는 $Ca^{2+}$이온의 영향을 UV-visible spectrophotometer를 이용하여 조사하였다. CT 상호작용에 따른 최대 흡수는 390 nm 부근에서 나타났으며, $Ca^{2+}$ 이온 존재하에서는 370 nm 영역으로 이동되었다. 계면활성제 농도를 CMC 이상에서 고정시켰을 때, CT 상호작용에 따른 최대흡수곡선의 강도가 $Ca^{2+}$이온 첨가 농도에 따라 증가하다가 감소하는 변곡점을 보였다. CT 상호작용에 기인한 흡수곡선의 강도가 증가하는 것은 $Ca^{2+}$이온 존재하에서 미셀 구조가 더욱 조밀해진데 다른 요오드와의 donor-acceptor overlap 증가로 볼 수 있다. 이러한 현상들은 수용액 중에서 상대적으로 자유로이 여러가지 배향을 가질 수 있는 비이온성 계면활성제의 선형 oxyethylene(EO) 사슬이 유사 크라운 에테르 구조를 형성하여 $Ca^{2+}$이온과 착물을 형성할 수 있는 가능성을 보여준다.

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$Ca^{2+}$ 존재하에서 비이온성 계면활성제와 요오드와의 상호작용 (The Interaction of Nonionic Surfactant with Iodine in the Presence of $Ca^{2+}$)

  • 박정순;권오윤;백우현
    • 대한화학회지
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    • 제37권1호
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    • pp.36-42
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    • 1993
  • $Ca^{2+}$ 이온 존재하에서 비이온성 계면활성제, $nonylphenol-(ethylene oxide)_n\;[NP-(EO)_n; n = 11, 40, 100]$와 요오드간의 charge transfer (CT) 상호작용을 UV-Visible spectrophotometer를 이용하여 수용액중에서 조사하였다. Spectra의 특성은 $Ca^{2+}$ 이온 농도와 EO 갯수에 의존하였다. CMC 이상에서 $NP-(EO)_{11}$$NP-(EO)_{40}$에 대한 $Ca^{2+}$이온 첨가에 따른 CT band는 증가하다가 다시 감소하였으며, $NP-(EO)_{100}$에 대해서는 계속적인 증가를 보였다. CT band의 강도가 증가하는 것은 $Ca^{2+}$이온 존재하에서 미셀 구조가 더욱 조밀해진데 따른 요오드와의 donor-acceptor overlap 증가로 볼 수 있다. 이러한 현상들은 수용액 중에서 상태적으로 자유로이 여러가지 배향을 가질 수 잇는 선형 ethylene oxide(EO) 사슬이 유사 크라운 에테르 구조를 형성하여 $Ca^{2+}$ 이온과 착물을 형성할 수 있는 가능성을 보여준다.

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Does ginsenoside act as a ligand as other drugs do?

  • Nah, Seung-Yeol
    • 고려인삼학회:학술대회논문집
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    • 고려인삼학회 2005년도 창립30주년기념 추계 학술대회 및 정기총회
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    • pp.32-40
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    • 2005
  • The last two decades have shown a marked expansion in publications of diverse effects of Panax ginseng. Ginsenosides, as active ingredients of Panax ginseng, are saponins found in only ginseng. Recently, a line of evidences shows that ginsenosides regulate various types of ion channel activity such as Ca$^{2+}$, K$^+$, Na$^+$, Cl$^-$, or ligand gated ion channels (i.e. 5-HT$_3$, nicotinic acetylcholine, or NMDA receptor) in neuronal, non-neuronal cells, and heterologously expressed cells. Ginsenosides inhibit voltage-dependent Ca$^{2+}$, K$^+$, and Na$^+$ channels, whereas ginsenosides activate Ca$^{2+}$-activated Cl$^-$ and Ca$^{2+}$-activated K$^+$ channels. Ginsenosides also inhibit excitatory ligand-gated ion channels such as 5-HT$_3$. nicotinic acetylcholine, and NMDA receptors. This presentation will introduce recent findings on the ginsenoside-induced differential regulations of ion channel activities as a ligand as other drugs do.

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Voltammetric Recognition of Ca2+ by Calix[4]arene Diquinone Diacid

  • Kim, Tae-Hyun
    • Bulletin of the Korean Chemical Society
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    • 제31권11호
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    • pp.3115-3117
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    • 2010
  • The voltammetric study on a water-soluble calix[4]arene-diquinone-diacid (CDA) in pH 7.4 in the presence of $Ca^{2+}$ ion provided important information about the unique electrochemical behavior of CDA-$Ca^{2+}$ complex. Using CDA, $Ca^{2+}$ ion in aqueous solution was recognized quantitatively by voltammetric techniques.

Ca과 BSA가 소 정자세척액내 수소이온농도에 미치는 영향 (Effect of Ca and BSA on Hydrogen Ion Concentration in Bovine Sperm Washed Solution)

  • 박영식;임경순
    • 한국가축번식학회지
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    • 제15권3호
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    • pp.201-205
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    • 1991
  • This study was carried out to investigate the effects of Ca and BSA on hydrogen ion concentration in sperm washed solution. The results obtained were as follows : 1. The hydrogen concentration in 1st and 2nd sperm washed solutions was signifcinatly(p<0.01) higher when sperm was washed with SHPsolution containing 2mM Ca than when sperm washed with SHP solution or SHP solution containing 10mM Ca. 2. The hydrogen ion concentration in sperm washed solution was significnatly(p<0.05) higher when seprm was washed with SHP solution containing BSA-FAF than when sperm was washed with SHP solution or SHP solution containing BSA-V.

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Stoichiometry of $Ns^+/Ca^{2+}$ Exchange Quantified with Ion-selective Microelectrodes in Giant Excised Cardiac Membrane Patches

  • kang, Tong Mook;Hilgemann, Donald W.
    • 한국생물물리학회:학술대회논문집
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    • 한국생물물리학회 2003년도 정기총회 및 학술발표회
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    • pp.30-30
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    • 2003
  • Without a definitive resolution of stoichiometry of cardiac Na$^{+}$-Ca$^{2+}$exchange (NCX), we cannot proceed to any quantitative analysis of exchange function as well as cardiac excitation-contraction coupling. The stoichiometry of cardiac NCX, however, is presently in doubt because reversal potentials determined by various groups range between those expected for a 3-to-1 and a 4-to-1 flux coupling. For a new perspective on this problem, we have used ion-selective microelectrodes to quantify directly exchanger-mediated fluxes of $Ca^{2+}$and Na$^{+}$in giant membrane patches. $Ca^{2+}$- and Na$^{+}$-selective microelectrodes, fabricated from quartz capillaries, are placed inside of the patch pipettes to detect extracellular ion transients associated with exchange activity. Ion changes are monitored at various distances from the membrane, and the absolute ion fluxes through NCX are determined via simulations of ion diffusion and compared with standard ion fluxes (Ca$^{2+}$ fluxes mediated by $Ca^{2+}$ ionophore, and Na$^{+}$ fluxes through gramicidin channels and Na$^{+}$/K$^{+}$pumps). Both guinea pig myocytes and NCX1-expressing BHK cells were employed, and for both systems the calculated stoichiometries for inward and outward exchange currents range between 3.2- and 3.4-to-1. The coupling ratios do not change significantly when currents are varied by changing cytoplasmic [Ca$^{2+}$] or by adding cytoplasmic Na$^{+}$. The exchanger reversal potentials, measured in both systems under several ionic conditions, range from 3.1- to 3.3-to-1. Taken together, a clear discrepancy from a NCX stoichiometry of 3-to-1 was obtained. Further definitive experiments are required to acquire a fixed number, and the present working hypothesis is that NCX current has an extra current via ‘conduction mode’.ent via ‘conduction mode’.

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Ginseng and ion channels: Are ginsenosides, active component of Panax ginseng, differential modulator of ion channels?

  • Jeong, Sang-Min;Nah, Seung-Yeol
    • Journal of Ginseng Research
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    • 제29권1호
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    • pp.19-26
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    • 2005
  • The last two decades have shown a marked expansion in publications of diverse effects of Panax ginseng. Ginsenosides, as active ingredients of Panax ginseng, are saponins found in only ginseng. Recently, a line of evidences shows that ginsenosides regulate various types of ion channel activity such as $Ca^{2+},\;K^+,\;Na^+,\;Cl^-$, or ligand gated ion channels (i.e. $5-HT_3$, nicotinic acetylcholine, or NMDA receptor) in neuronal, non-neuronal cells, and heterologously expressed cells. Ginsenosides inhibit voltage-dependent $Ca^{2+},\;K^+,\;and\;Na^+$ channels, whereas ginsenosides activate $Ca^{2+}-activated\;Cl^-\;and\;Ca^{2+}-activated\;K^+$ channels. Ginsenosides also inhibit excitatory ligand-gated ion channels such as $5-HT_3$, nicotinic acetylcholine, and NMDA receptors. This review will introduce recent findings on the ginsenoside-induced differential regulations of ion channel activities and will further expand the possibilities how these ginsenoside-induced ion channel regulations are coupled to biological effects of Panax ginseng.