• Title/Summary/Keyword: thiol

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Existence of "25 kDa Thiol Peroxidase" in Retina: Evidence for An Antioxidative Role

  • Cha, Mee-Kyung;Kim, Il-Han
    • BMB Reports
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    • v.31 no.4
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    • pp.409-412
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    • 1998
  • We isolated and sequenced a human retina cDNA fragment that encodes 25 kDa thiol peroxidase. A search of a databank showed that the 25 kDa thiol peroxidase from retina is the same type of thiol peroxidase which exists in human brain and red blood cells. This type of tbiol peroxidase was distributed in all of the tested tissues including retina. This result suggests a physiological role for the 25 kDa thiol peroxidase as an important antioxidant.

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Functional Diversity of Cysteine Residues in Proteins and Unique Features of Catalytic Redox-active Cysteines in Thiol Oxidoreductases

  • Fomenko, Dmitri E.;Marino, Stefano M.;Gladyshev, Vadim N.
    • Molecules and Cells
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    • v.26 no.3
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    • pp.228-235
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    • 2008
  • Thiol-dependent redox systems are involved in regulation of diverse biological processes, such as response to stress, signal transduction, and protein folding. The thiol-based redox control is provided by mechanistically similar, but structurally distinct families of enzymes known as thiol oxidoreductases. Many such enzymes have been characterized, but identities and functions of the entire sets of thiol oxidoreductases in organisms are not known. Extreme sequence and structural divergence makes identification of these proteins difficult. Thiol oxidoreductases contain a redox-active cysteine residue, or its functional analog selenocysteine, in their active sites. Here, we describe computational methods for in silico prediction of thiol oxidoreductases in nucleotide and protein sequence databases and identification of their redox-active cysteines. We discuss different functional categories of cysteine residues, describe methods for discrimination between catalytic and noncatalytic and between redox and non-redox cysteine residues and highlight unique properties of the redox-active cysteines based on evolutionary conservation, secondary and three-dimensional structures, and sporadic replacement of cysteines with catalytically superior selenocysteine residues.

Thiol-dependent Redox Mechanisms in the Modification of ATP-Sensitive Potassium Channels in Rabbit Ventricular Myocytes

  • Han, Jin;Kim, Na-Ri;Cuong, Dang-Van;Kim, Chung-Hui;Kim, Eui-Yong
    • The Korean Journal of Physiology and Pharmacology
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    • v.7 no.1
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    • pp.15-23
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    • 2003
  • Cellular redox state is known to be perturbed during ischemia and that $Ca^{2+}$ and $K^2$ channels have been shown to have functional thiol groups. In this study, the properties of thiol redox modulation of the ATP-sensitive $K^2$ ($K_{ATP}$) channel were examined in rabbit ventricular myocytes. Rabbit ventricular myocytes were isolated using a Langendorff column for coronary perfusion and collagenase. Single-channel currents were measured in excised membrane patch configuration of patch-clamp technique. The thiol oxidizing agent 5,5'-dithio-bis-(2-nitro-benzoic acid) (DTNB) inhibited the channel activity, and the inhibitory effect of DTNB was reversed by dithiothreitol (disulfide reducing agent; DTT). DTT itself did not have any effect on the channel activity. However, in the patches excised from the metabolically compromised cells, DTT increased the channel activity. DTT had no effect on the inhibitory action by ATP, showing that thiol oxidation was not involved in the blocking mechanism of ATP. There were no statistical difference in the single channel conductance for the oxidized and reduced states of the channel. Analysis of the open and closed time distributions showed that DTNB had no effect on open and closed time distributions shorter than 4 ms. On the other hand, DTNB decreased the life time of bursts and increased the interburst interval. N-ethylmaleimide (NEM), a substance that reacts with thiol groups of cystein residues in proteins, induced irreversible closure of the channel. The thiol oxidizing agents (DTNB, NEM) inhibited of the $K_{ATP}$ channel only, when added to the cytoplasmic side. The results suggested that metabolism-induced changes in the thiol redox can also modulate $K_{ATP}$ channel activity and that a modulatory site of thiol redox may be located on the cytoplasmic side of the $K_{ATP}$ channel in rabbit ventricular myocytes.

Purification and Characterization of Thiol-Specific Antioxidant Protein from Human Liver: A Mer5-Like Human Isoenzyme

  • Cha, Mee-Kyung;Kim, Il-Han
    • BMB Reports
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    • v.29 no.3
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    • pp.236-240
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    • 1996
  • A 23-kDa molecular mass of antioxidant protein was purified from human liver. This protein exhibited the preventive effect against the inactivation of glutamine synthetase by a metal-catalyzed oxidation system. This antioxidant activity was supported by a thiol-reducing equivalent such as dithiothreitol in a similar manner to that of the 25-kDa thiol-specific antioxidant protein (TSA) from human red blood cells (HR). However, a thioredoxin-linked peroxidase activity of thiol-specific antioxidant protein of human liver (HLTSA) (0.91 ${\mu}mol/min/nmol$ of HLTSA) was much lower than that of thiol-specific antioxidant protein of human red blood cells (HRTSA) (16.4 ${\mu}mol/min/nmol$ of HRTSA). This HLTSA is also immnologically distinct from HRTSA Amino acid sequences of the three tryptic peptides (P1, P2, P3) of HLTSA were found to be completely homologous to segments of the known Mer5-like protein, which belongs to the known TSA family.

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Physiological Roles of Bacillus subtilis thiol peroxidase gene in response to oxidative stress (산화적 스트레스에 대한 Bacillus subtilis의 thiol peroxidase 유전자의 생리적인 기능)

  • Kim, Ha-Kun;Kim, Sung-Jin
    • The Journal of Natural Sciences
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    • v.15 no.1
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    • pp.57-67
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    • 2005
  • In Order to investigate the physiological role of thiol peroxidase in Bacillus subtilis, a thiol peroxidase (btpx) knock-out mutant was generated by homologous recombination. The growth of btpx knock-out mutant in aerobic condition showed a similar pattern with that of wild type of Bacillus subtilis 168/ But btpx knock-out mutant showed a retarded growht in response to oxidative stress such as $H_2O_2$, cumene hydroperoxide (CHP) treatments.

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Aminolysis of Aryl Thiol-2-furoates and Thiol-2-thiophenates in Acetonitrile

  • 오혁근;이준용;이익춘
    • Bulletin of the Korean Chemical Society
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    • v.19 no.11
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    • pp.1198-1202
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    • 1998
  • Aminolysis of aryl thiol-2-furoates and thiol-2-thiophenates with benzylainines are investigated in acetonitrile at 50.0 ℃. Relatively large selectivity parameters, ρx(βx), ρz(βx) and ρxz (> 0) together with the valid reactivity-selectivity principle are consistent with a stepwise acyl transfer mechanism with rate-limiting expulsion of the leaving group, thiophenolate anion, from the tetrahedral intermediate, T±. The first-order kinetics with respect to the benzylamine concentration and the relatively large secondary kinetic isotope effect involving deuterated benzylamine nucleophiles suggest a four-center type transition state in which concurrent leaving group departure and proton transfer are involved.

Biochemical characterization of Haemophilus Influenzae TPx-GRX (Haemophilus Influenzae TPx-GRX의 생화학적 특성연구)

  • Lee, Dong-Suk;Kim, Il-Han
    • The Journal of Natural Sciences
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    • v.14 no.1
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    • pp.7-24
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    • 2004
  • We found new type of thiol peroxidase, fused with GRX.(TPx-GRX) The TPx-GRX exists in pathogenic bacteria including -. This protein was homogeneously purified from the E.coli recombinant overexpressing TPx-GRX. In the presence of a thiol-containing electron donor such as DTT, the purified TPx-GRX has potent the antioxidant to prevent the inactivation of GS by the MCO system, which is comprised of DTT, $Fe^{3+}$, and $O^2$. The antioxidant activity is much higher that other thiol peroxidase. The investigate the peroxidase activity of TPx-GRX, we directly measured the peroxidase activity of TPx-GRX toward peroxides in terms of the removal of peroxides in the presence of GSH. This result demonstrates that the peroxidase activity of TPx-GRX. These taken together results suggest that TPx-GRX is a new member of thiol peroxidase. These observations also suggest that in the pathogenic bacteria, TPx-GRX plays an important antioxidative role as a multiple array defence mechanism against oxidative stress.

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Purification and characterization of TPx from archeabacteria, Halococcus agglomeratus (고염 원시박테리아(Halococcus agglomeratus)에 존재하는 TPx 분리 및 생화학적 특성연구)

  • Choi, Yong-Soo;Cha, Mee-Kyung;Kim, Il-Han
    • The Journal of Natural Sciences
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    • v.14 no.2
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    • pp.67-82
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    • 2004
  • A thiol-specific antioxidant protein (TSA or TPx) was purified from Halophilic archeabacteria Halococcus agglomeratus, by DEAE-Cellulose, Phnyl, sepharose, Sephadex G-75, Sephacryl S-100, Sephacryl S-200, and Q-Wepharose FF. This protein exhibited the preventeive effect against the inactivation of glutamine synthehase (GS) activity was support by a thiol-reducing equicalent such as dithiothreitol. TPx activity was maximal at NaCl concentration above 500mM. The molecular mass of the protein was determinated to be 22-kDa by SDS-PAGE. The TPx purified from Halococcus agglomeratus seems to be similar to other TPx family, except for the salt requirement for the maximal antioxidant activity.

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Characterization of Thiol Protease Inhibitor Isolated from Streptornyces sp. KISl3 (Streptomyces sp. KIS13 균주에서 분리한 thiol계 단백질분해효소 저해물질의 특성)

  • 김인섭;이계준
    • Microbiology and Biotechnology Letters
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    • v.18 no.5
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    • pp.501-505
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    • 1990
  • Streptomyces sp. KISl3 isolated from soil was found to produce low molecular weight thiol protease inhibitors. The protease inhibitor production was closely linked to the cell growth and regulated by growth condition. The inhibitor was purified from the culture broth through butanol extraction, silicagel 60 column chromatography, Sephadex LH-20 gel filtration and preparative HPLC. The inhibitor showed specific inhibitory activity to thiol protease such as papain, picin and bromelain. The mode of inhibition against papain to Hammersten casein as a substrate was non-competitive.

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Thioredoxin in the Periplasmic Space of Escherichia coli as a Physiological Electron Donor to Periplasmic Thiol Peroxidase, p20

  • Cha, Mee-Kyung;Kim, Il-Han
    • BMB Reports
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    • v.32 no.2
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    • pp.168-172
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    • 1999
  • We previously reported that a novel thiol peroxidase (p20) from Escherichia coli is a distinct periplasmic peroxidase that detoxifies hydroperoxides together with glutathione or thioredoxin. Until now, there was no experimental evidence for the presence of thioredoxin (Trx) in the periplasmic space. In an attempt to confirm the physiological function of p20 as a thiol peroxidase supported by Trx in the periplasmic space, we have purified a Trx activity from the periplasmic space of Escherichia coli and identified the Trx as the same protein as the cytoplasmic Trx. The presence of Trx in the periplasmic space of Escherichia coli suggests that p20 is a unique extracellular Trx-linked thiol peroxidase.

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