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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression vector pGEX-2T under the control of the IPTG-inducible tac promotor is effective for the production of a fusion protein of glutathione transferase (GST, 26 kDa) and promatrilysin (28 kDa) separated from the C-terminus of GST by a thrombin cleavage site. Zwittergen (palmityl sulfobetaine), 2%, solubilizes the fusion protein that is found associated with inclusion bodies. The solubilized fusion protein is purified by affinity chromatography on
GSH
agarose. Promatrilysin is obtained by thrombin cleavage either on the column or after
GSH
elution of the fusion protein. Mono S chromatography of the recovered protein yields homogeneous promatrilysin. The zinc content of promatrilysin and its activated enzyme product is slightly greater than 2 mol of zinc per
mole
of protein. The results indicate that the matrix metalloproteinases (MMPs) contain two metal-binding sites at which zinc is firmly bound and possibly a third site at which it is weakly bound. Primary sequence alignments for all the MMPs have a sequence homologous to the zinc-binding site of astacin, HExxHxxGxxH, suggesting one of the zinc sites is a catalytic one, in agreement with the known inhibition of these enzymes by chelators. However, the other zinc-binding site(s) likely reflect the different ways that astacin and the MMP subfamilies are stabilized, i.e., disulfides in astacin and metal ions in the MMPs.
...
PMID:Matrilysin: expression, purification, and characterization. 856 47
The role of reactive oxygen species in causing DNA damage through interaction of chromium (III) and hydrogen peroxide was examined using plasmid relaxation assay and EPR spectroscopy. Marked DNA strand breakage was induced by CrCl3 plus H2O2 in a phosphate buffer at pH 6-8.9; whereas, only slight DNA strand breakage was observed during similar treatment at pH less than 4. DNA breakage also increased as the reaction temperature and Cr(III)/H2O2 concentrations increased. Control experiments with Cr(III) or H2O2 alone did not cause DNA breakage. Sodium azide, D-mannitol, Tris-HCl, or catalase completely inhibited Cr(III)/H2O2-induced DNA breakage, but superoxide dismutase did not. The D2O enhancing effect on DNA breaks was not observed. Cr(III) pre-incubated with a 30-fold molar excess of EDTA did not cause any significant DNA breakage in the presence of H2O2. In a phosphate buffer containing Cr(III) and H2O2, singlet oxygen and hydroxyl radicals were detected using EPR spectrometry with the spin traps 2,2,6,6-tetramethyl-4-piperidone and 5,5-dimethyl-1-pyrroline 1-oxide (DMPO), respectively. DMPO/.OH adducts and DNA breakage induced by Cr(III)/H2O2 were markedly higher than those induced by Cr(VI)/H2O2. Furthermore, ascorbate decreased Cr(III)/H2O2-induced DNA breakage. EPR studies revealed that ascorbate (
mole
ratio to Cr(III) = 0.5:1) attenuated the DMPO/.OH signal generated by Cr(III)/H2O2/DMPO, but a Cr(V) signal and ascorbate radicals were detected. NADPH,
GSH
, and GSSG also decreased DMPO/.OH generated by Cr(III)/H2O2/DMPO; however, they were less efficient than ascorbate and no Cr(V) signals were detected. This study shows that Cr(III)/H2O2 generates oxidative damage to DNA through a Fenton-like reaction: Cr(III) + H2O2-->Cr(IV) + .OH + OH.
...
PMID:Formation of reactive oxygen species and DNA strand breakage during interaction of chromium (III) and hydrogen peroxide in vitro: evidence for a chromium (III)-mediated Fenton-like reaction. 902 Nov 67
The influence of the thiols L-cysteine (CYS), glutathione (
GSH
), and 2,3-dimercapto-1-propanesulfonate (DMPS) on the binding and transport of inorganic mercury (Hg2+) in luminal (brush-border) and basolateral membrane-vesicles isolated from the kidneys of rats was studied using radiolabeled mercury (203HgCl2). Membrane-vesicles were exposed to 1, 10, or 100 microM Hg2+ in the presence or absence of a 3:1 or 10:1
mole
-ratio of CYS,
GSH
, or DMPS relative to Hg2+. Equilibration of mercury with the membrane-vesicles occurred very rapidly, essentially being complete within 5 sec. By 60 sec, binding accounted for 87-97% of intravesicular Hg2+ in the absence of exogenous thiols. All three thiols significantly reduced the fraction of binding, with DMPS being the most effective agent. CYS enhanced the association of Hg2+ with luminal membrane-vesicles relative to that when Hg2+ was added alone, suggesting that conjugation of Hg2+ with CYS promotes the transport of low concentrations of Hg2+. In contrast, an excess of either
GSH
or DMPS relative to Hg2+ interfered significantly with both the binding and transport of Hg2+ into either luminal or basolateral membrane-vesicles. In summary, the present study is the first to describe the association of Hg2+ with renal luminal and basolateral membrane-vesicles. Evidence was obtained for the involvement of a Hg2+-CYS conjugate as a mechanism by which Hg2+ uptake and binding to luminal membranes occur and for an inhibitory effect of
GSH
and the chelator DMPS with regard to Hg2+ uptake and binding, demonstrating that extracellular thiols can modulate significantly the renal accumulation of Hg2+.
...
PMID:Binding of mercury in renal brush-border and basolateral membrane-vesicles. 925 64
We investigated the relationship between active oxygen species (AOS) generation and cultured vascular endothelial cellular damage caused by simultaneous exposure to selenium compounds and sulfhydryl compounds such as cysteine (Cys) or reduced glutathione (
GSH
). Selenium compounds, selenite, selenate or selenomethionine (SeMet), are added to total parenteral nutrition (TPN) and intravenously administered. We confirmed by luminol dependent chemiluminescence, an indicator of AOS generation, that selenite generates AOS in the presence of clinical concentrations of sulfhydryl compounds, 0.5 mM Cys or 0.5 mM
GSH
, and that the amount of AOS generated reaches the maximum when their
mole
ratio is 1:50. However, AOS generation was not observed after simultaneous administration of various concentrations of selenate or SeMet with sulfhydryl compounds. Moreover, simultaneous exposure to 10 microM selenite and sulfhydryl compounds was found to result in significant increases in the [3H]-adenine and lactate dehydrogenase (LDH) release rates from cells, a significant decrease in the amount of cellular protein, and enhancement of cellular damage as compared with after exposure to selenite alone. However, simultaneous exposure to 10 microM selenate or 10 microM SeMet together with sulfhydryl compounds did not induce cellular damage. These findings revealed that selenite generates AOS and causes cellular damage in the presence of sulfhydryl compounds. Accordingly, it seems better to choose selenate or SeMet instead of selenite when a selenium compound is to be added to TPN.
...
PMID:Active oxygen species generation and cellular damage by additives of parenteral preparations: selenium and sulfhydryl compounds. 1046 7
The mechanism of oxidation or reduction using the electron method was investigated for (I) aniline; (II) nitrobenzene; (III) nitrate; (IV) sulphanilamide; (V) hydrogen peroxide; (VI) hydroxyl free radical; (VII) ferricyanide; (VIII) acetylphenylhydrazine; (IX) nitrite; (X) chlorate and (XI) hydroxylamine respectively. Substances (II), (III), (V), (VI), (VII), (IX), (X) and (XI) evolved as oxidants, with (II), nitrobenzene and (X), chlorate as the most powerful oxidants (number of moles of HbFe(2+)(haemoglobin) of 6 reacting with 1.0
mole
of the substance). Substances (I), (IV) and (VII) evolved as reductants of equal reducing power (number of moles of HbFe(3+)(methaemoglobin) of 4 reacting with 1.0
mole
of the substance). Using the following equations, the impact of oxidants and reductants on glutathione (
GSH
) peroxidase, glutathione (GSSC) reductase and NADHmetHb reductase respectively on methaemoglobinaemia generation was investigated. [Equation in text]. Redox potential change (DeltaE' (o)) of 1.77, -1.77 and 1.86 volt and free energy change (DeltaG(o)') of -81, 81 and -85.8 kcal/mol were calculated for GSH peroxidase, GSSG reductase and NADHmetHb reductase systems respectively. In sustained methaemoglobinaemia, these mechanisms predict low levels of NADHmetHb reductase and glutathione peroxidase respectively, but high levels of glutathione reductase in red blood cells on exposure to oxidants. The significance of these mechanisms was investigated in cord blood, neonatal, adult red blood cells and other biological systems. It was concluded that any reaction with a positive DeltaE(o)' and negative DeltaG(o)' with the Fe(3+): Fe(2+)couple will indicate methaemoglobin oxidizing power. The effects on red blood cells and white blood cells were manifested in the biochemical toxicology of nitroso (PhN = 0), arylamine glucuronide (PhNHG) and arene imine respectively.
...
PMID:Theoretical mechanistic basis of oxidants of methaemoglobin formation. 1079 Jul 68
Lipopolysaccharide (LPS) injures blood vessels by activating pathways in the endothelium that lead either to cell survival and proliferation or apoptosis. It has been suggested that these outcomes are determined when reactive oxygen and nitrogen intermediates oxidize low molecular weight non-protein thiols (NPSHs) such as glutathione (
GSH
) and cysteine (Cys), which serve as major intracellular reducing agents. The oxidoreduction of NPSHs could be an important redox signal if it were shown to occur rapidly following injury. Towards that end, cultured bovine aortic endothelial cells were stained with the thiol fluorescent probe, monobromobimane (MBB). Most of the acid extractable MBB-reactive adducts are
GSH
(approximately 90%) and Cys (approximately 90%). Within 1 min of LPS exposure, 50-70% of the MBB-reactive NPSHs are consumed without evidence for concomitant net generation of superoxide, hydrogen peroxide, singlet oxygen, or glutathione disulfide (GSSG). Although LPS induces an increased rate of thiol-disulfide exchange, the slight increase does not explain the magnitude of NPSH consumption. Within the first 10 min of recovery from LPS exposure, the MBB-reactive NPSH fluorescence returns at or slightly above baseline values. When HgCl2 was added to the acid extract, one
mole
of S-nitrosothiol oxidizing equivalent was found for every
mole
of MBB-reactive NPSH consumed. It is suspected that the rapid flux of MBB-reactive NPSHs and Hg2+-inducible oxidants reflects transition of
GSH
to GSNO (S-nitrosoglutathione) and could be an important redox signal in endothelial cells exposed to LPS.
...
PMID:Non-protein thiols flux to S-nitrosothiols in endothelial cells: an LPS redox signal. 1094 67
Redox properties of metallothioneins (MTs) and Cu in the cytosol from Long-Evans Cinnamon (LEC) rat livers 13 weeks after birth were investigated. MTs from LEC rat livers contain 8 g atoms of Cu and 1 g atom of Zn per
mole
of protein (Cu(I)8-MTs). Titration of Cu(I)8-MTs with CuCl2 indicates that Cu(I)8-MTs were able to reduce further 2-g atoms of cupric ions per
mole
MTs as bound form. Hg2+-induced hydroxyl radical generation from Cu(I)8-MTs was demonstrated by ESR using the spin trap, 5,5-dimethyl-1-pyrroline N-oxide (DMPO). The intensity of DMPO-OH signal from Cu-loaded MTs was increased with the increasing number of Cu in MTs. The used cytosol fraction contained 1.37 mM total Cu and 5 mM DTNB titrable-SH groups has a potential to reduce 2 mM CuCl2. No ESR signal due to Cu2+ was also detected with LEC rat liver cytosol, whereas strong Cu2+ signal appeared by the addition of HgCl2. The rate constants for the reaction of Cu(I)8-MTs with superoxide and hydroxyl radicals were estimated to be 2 x 10(6) and > or = 10(12) M(-1)s(-1), respectively, from competition kinetics. Cu2+-catalyzed oxidation of DNA was strongly inhibited both in the presence of Cu-unsaturated MTs and
GSH
. The results suggest that Cu(I)8-MTs from LEC rat livers just before hepatitis still act as antioxidants.
...
PMID:Cu-metallothioneins (Cu(I)8-MTs) in LEC rat livers 13 weeks after birth still act as antioxidants. 1137 Aug 44
A method employing solid-phase extraction coupled with HPLC separation of thiol-monobromobimane (mBBr) derivatives was developed and optimized to quantify dissolved thiols at concentrations as low as 0.1 nM for glutathione (
GSH
) and gamma-glutamylcysteine (gammaEC) in natural waters. The reducing reagent, tri-n-butylphosphine (TBP), is needed for complete derivatization. At the optimal addition of TBP ([TBP]/[mBBr] = -0.4-1.6), no interference from copper was observed. The thiol fluorescence signal was totally suppressed if the
mole
ratio of TBP to mBBr was 2.6 or greater. Consistent recovery of thiols standards in a NaCl solution (0.5 M) was obtained using the Waters HLB reversed-phase resin, and blank levels of
GSH
and gammaEC were extremely low (less than 0.03 nM). The detection limits for
GSH
, gammaEC and phytochelatin-2 (PC-2) were 0.03, 0.03, and 0.06 nM, respectively.
...
PMID:Determination of dissolved thiols using solid-phase extraction and liquid chromatographic determination of fluorescently derivatized thiolic compounds. 1286 69
Hypochlorous acid (HOCl) and chloramines are produced by the neutrophil enzyme, myeloperoxidase. Both react readily with thiols, although chloramines differ from HOCl in discriminating between low molecular weight thiols on the basis of their pKa. Here, we have compared the reactivity of HOCl and taurine chloramine with thiol proteins by examining inactivation of creatine kinase (CK) and glyceraldehyde-3-phosphate dehydrogenase (GAPDH). With both enzymes, loss of activity paralleled thiol loss. For CK both were complete at a 1:1 taurine chloramine:thiol
mole
ratio. For GAPDH each chloramine oxidized two thiols. Three times more HOCl than taurine chloramine was required for inactivation, indicating that HOCl is less thiol specific. Competition studies showed that thiols of CK were 4 times more reactive with taurine chloramine than thiols of GAPDH (rate constants of 1200 and 300 M-1s-1 respectively). These compare with 205 M-1s-1 for cysteine and are consistent with their lower pKa's. Both enzymes were equally susceptible to HOCl.
GSH
competed directly with the enzyme thiols for taurine chloramine and protected against oxidative inactivation. At lower
GSH
concentrations, mixed disulfides were formed. We propose that chloramines should preferentially attack proteins with low pKa thiols and this could be important in regulatory processes.
...
PMID:Taurine chloramine is more selective than hypochlorous acid at targeting critical cysteines and inactivating creatine kinase and glyceraldehyde-3-phosphate dehydrogenase. 1633 78
1. A cell-free system from Pseudomonas fluorescens catalysed the oxidative demethylation and subsequent ring-cleavage of vanillate, with uptake of 2.5 moles of oxygen/
mole
of substrate. 2. Demethylation involved absorption of 0.5
mole
of oxygen/
mole
, and required reduced glutathione (
GSH
) and nucleotide (probably NADPH) as cofactors, with further possible requirements, the natures of which are discussed. 3. Incomplete evidence suggested that the aromatic ring was opened via protocatechuate and the appropriate oxygenase, with absorption of 1
mole
of oxygen/
mole
of substrate, eventually yielding beta-oxoadipate. 4. The methyl group was removed sequentially as formaldehyde, formate and carbon dioxide, the steps catalysed respectively by formaldehyde dehydrogenase, which required
GSH
and NAD(+), and formate dehydrogenase. Each enzyme was cytochrome-linked and accounted for absorption of 0.5mole of oxygen/
mole
of substrate. 5. All enzymes except formate dehydrogenase, which was a cell-wall enzyme, resided in the soluble fraction of the extract. The demethylase could not be resolved because of unknown cofactor requirements.
...
PMID:Bacterial attack on phenolic ethers: An enzyme system demethylating vanillic acid. 1674
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