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121.
Collet JF Peisach D Bardwell JC Xu Z 《Protein science : a publication of the Protein Society》2005,14(7):1863-1869
Escherichia coli thioredoxin is a small monomeric protein that reduces disulfide bonds in cytoplasmic proteins. Two cysteine residues present in a conserved CGPC motif are essential for this activity. Recently, we identified mutations of this motif that changed thioredoxin into a homodimer bridged by a [2Fe-2S] iron-sulfur cluster. When exported to the periplasm, these thioredoxin mutants could restore disulfide bond formation in strains lacking the entire periplasmic oxidative pathway. Essential for the assembly of the iron-sulfur was an additional cysteine that replaced the proline at position three of the CGPC motif. We solved the crystalline structure at 2.3 Angstroms for one of these variants, TrxA(CACA). The mutant protein crystallized as a dimer in which the iron-sulfur cluster is replaced by two intermolecular disulfide bonds. The catalytic site, which forms the dimer interface, crystallized in two different conformations. In one of them, the replacement of the CGPC motif by CACA has a dramatic effect on the structure and causes the unraveling of an extended alpha-helix. In both conformations, the second cysteine residue of the CACA motif is surface-exposed, which contrasts with wildtype thioredoxin where the second cysteine of the CXXC motif is buried. This exposure of a pair of vicinal cysteine residues apparently allows thioredoxin to acquire an iron-sulfur cofactor at its active site, and thus a new activity and mechanism of action. 相似文献
122.
Carrega L Mosbah A Ferrat G Beeton C Andreotti N Mansuelle P Darbon H De Waard M Sabatier JM 《Proteins》2005,61(4):1010-1023
Animal toxins are highly reticulated and structured polypeptides that adopt a limited number of folds. In scorpion species, the most represented fold is the alpha/beta scaffold in which an helical structure is connected to an antiparallel beta-sheet by two disulfide bridges. The intimate relationship existing between peptide reticulation and folding remains poorly understood. Here, we investigated the role of disulfide bridging on the 3D structure of HsTx1, a scorpion toxin potently active on Kv1.1 and Kv1.3 channels. This toxin folds along the classical alpha/beta scaffold but belongs to a unique family of short-chain, four disulfide-bridged toxins. Removal of the fourth disulfide bridge of HsTx1 does not affect its helical structure, whereas its two-stranded beta-sheet is altered from a twisted to a nontwisted configuration. This structural change in HsTx1 is accompanied by a marked decrease in Kv1.1 and Kv1.3 current blockage, and by alterations in the toxin to channel molecular contacts. In contrast, a similar removal of the fourth disulfide bridge of Pi1, another scorpion toxin from the same structural family, has no impact on its 3D structure, pharmacology, or channel interaction. These data highlight the importance of disulfide bridging in reaching the correct bioactive conformation of some toxins. 相似文献
123.
Ramos-Vasconcelos GR Cardoso LA Hermes-Lima M 《Comparative biochemistry and physiology. Toxicology & pharmacology : CBP》2005,140(2):165-174
We investigated the regulation of free radical metabolism in Helix aspersa snails during a cycle of 20-day estivation and 24-h arousal in summer in comparison with estivation/arousal in winter-snails. In winter-snails (J. Exp. Biol. 206, 675-685, 2003), we had already observed an increase in the selenium-dependent glutathione-peroxidase (Se-GPX) activity in foot muscle and hepatopancreas and in the contents of hepatopancreas GSH-equivalents (GSH-eq=GSH+2 GSSG) during estivation compared with 24-h aroused snails. Summer-estivation prompted a 3.6-fold increase in Se-GPX activity in hepatopancreas, though not in foot muscle. Total-superoxide dismutase and catalase activities in hepatopancreas decreased (by 30-40%) during summer-estivation; however, no changes occurred in the activities of glutathione reductase, glutathione S-transferase and glucose-6-phosphate dehydrogenase in the two organs. GSH-eq levels were increased (by 54%) in foot muscle during estivation, but were unchanged in hepatopancreas. In contrast with winter-snails, oxidative stress markers (lipid peroxidation, carbonyl protein, and the GSSG/GSH-eq ratio) were unaltered during estivation/arousal in summer. These results demonstrate that seasonality modulates not only the absolute activities/levels of antioxidants (enzymes and GSH-eq) in H. aspersa, but also the regulatory process that controls the snail's antioxidant capacity during estivation/arousal. These results suggest that H. aspersa has an "internal clock" controlling the regulation of free radical metabolism in the different seasons. 相似文献
124.
Mikael?Erlandsson Mattias?H?llbrinkEmail author 《International journal of peptide research and therapeutics》2005,11(4):261-265
The use of powdered metallic zinc in acidic solution for the reduction of disulfide bonds in peptides and proteins has been
investigated. The method has several advantages over the traditional mercapto based reducing methods currently used; the reducing
agent is readily available and inexpensive; reduction can be performed in weakly acidic solutions of water and/or acetonitrile;
work up simply consists of a centrifugation step followed by pipeting the supernatant from the metal pellet, thereby greatly
diminishing the risk of reoxidation as a more elaborate work up procedure could result in. As no mercapto compounds are added,
there is no risk that the reducing agent will interfere in subsequent modification of the thiol functionality. Disulfides
in a model peptide are reduced within 5 min in any mixture of water/acetonitrile containing 1% TFA, all disulfides in insulin
is reduced within 1 h in any mixture of water/acetonitrile containing 5% acetic acid. To stress the convenience of the metallic
zinc reduction method, the resulting thiol compound was subjected to two commonly employed reactions in peptide chemistry:
Cys(Npys) directed disulfide formation (70% yield) and native chemical ligation between the reduced model peptide and Boc-Ala-p-metylthiobenzyl ester (65% yield of the ligation product plus disulfide formation between Cys and p-thiocresol). 相似文献
125.
In order to investigate the reduction mechanism of L-cysteine (Cys) on keratin fibers, cross-sectional samples of virgin white human hair treated with Cys were prepared. The heterogeneous reaction between Cys and keratin fibers involving the diffusion of Cys into human hair was analyzed at the molecular level using microspectrophotometry and Raman spectroscopy. The diffusion pattern of Cys into human hair showed non-Fickian type characteristics, thus indicating the free amino groups of electrostatically interacted with the anionic ions of the fiber surface. The disconnected relative concentration of -SS- groups at various depths of the hair samples with pH 9.0 was less than the Cys relative concentration, indicating that the reaction rate (the disconnection of -SS- groups) was slower than the diffusion rate of Cys into human hair. From these experiments, we concluded that the free amino groups of Cys electrostatically interacted with the anionic ions of the fiber surface, thereby decreasing the reaction rate (the disconnection of -SS- groups) of Cys at pH 9.0. 相似文献
126.
In this report, we demonstrate that a complex mammalian protein containing multiple disulfide bonds is successfully expressed in an E.coli-based cell-free protein synthesis system. Initially, disulfide-reducing activities in the cell extract prevented the formation of disulfide bonds. However, a simple pretreatment of the cell extract with iodoacetamide abolished the reducing activity. This extract was still active for protein synthesis even under oxidizing conditions. The use of a glutathione redox buffer coupled with the DsbC disulfide isomerase and pH optimization produced 40 microg/mL of active urokinase protease in a simple batch reaction. This result not only demonstrates efficient production of complex proteins, it also emphasizes the control and flexibility offered by the cell-free approach. 相似文献
127.
H. Hanika-Heidl 《Inorganica chimica acta》2004,357(6):1748-1760
Single crystals of three derivatives of the structurally still incompletely characterized coordination polymer [(Me3Sn)4Ru(CN)6] 1b have been prepared and subjected to crystallographic studies: [1b · 4H2O]=2b forms stacks of puckered ∞2[Ru{μ-CNSn(Me3)NC}2] sheets interlinked by hydrogen bonds in making use of two additional CNSn(Me3)OH2 ligands and quasi-zeolitic water. Mild drying of 2b leads to the “missing link” between 1b and 2b, [1b · 2H2O], 3b. The structure of [1b · 2tp] (tp=4-thiopyridone) consists of a three-dimensional, negatively charged host framework comprising (via Sn-S bonds) one “aromatic” thione linkage and a [Me3Sn · tp]+guest ion involving a more zwitterionic form of tp. Slow uptake of Me3SnCl from the gas phase by an aqueous solution of K4[Ru(CN)6] and tp afforded the novel assembly [1b · 2H2O · 0.8pms · 0.2pds] (pms/pds=4,4′-dipyridylmono-/disulfide), the supramolecular architecture of which resembles that of 2b. Bridging pms or pds molecules occupy equivalent interlayer sites, and the pms/pds ratio is likely to vary. At least three further assemblies containing again 1b and either tp or pds/pms have likewise been isolated, however, not as single crystals. 相似文献
128.
Mádi A Hoffrogge R Blaskó B Glocker MO Fésüs L 《Biochemical and biophysical research communications》2004,315(4):1064-1069
Transglutaminase dependent cross-linking of proteins has been implicated in a wide range of biological phenomena occurring in both extracellular and intracellular compartments. Clarification of the physiological role of transglutaminases requires identification of substrate molecules. Here we report the detection, purification, and identification by mass spectrometry of proteins, the glutamate dehydrogenase, a protein disulfide isomerase, and aldehyde dehydrogenase as amine donor substrates for the transglutaminase activity of the nematode Caenorhabditis elegans utilizing a novel biotinylated oligoglutamine peptide as a substrate. We also purified and identified streptavidin-binding proteins of the worm. 相似文献
129.
Foley TD Armstrong JJ Kupchak BR 《Biochemical and biophysical research communications》2004,315(3):568-574
The present study examined in subcellular fractions from rat brain the nature and sensitivity to hydrogen peroxide of constitutively expressed mitogen-activated protein kinase (MAPK) phosphatase activity. MAPK phosphatase activity was defined as the activity directed towards a dual-phosphorylated (pT/pY) peptide corresponding to the activation domain of the extracellular-regulated kinase (ERK) subtype of the MAPKs. The use of phosphatase inhibitors and biochemical analyses demonstrate that the MAPK phosphatase activity, which was highest in the microsomal membrane and soluble fractions, was attributable mainly, if not entirely, to protein phosphatase 2A (PP2A). Moreover, hydrogen peroxide (in the absence and presence of reduced glutathione) and glutathione disulfide inhibited the MAPK phosphatase activity by a dithiothreitol-reversible mechanism. These results provide direct support for mounting evidence that PP2A is a major regulator of MAPK phosphorylation in brain and suggest that inhibition of PP2A activity via reversible oxidation of a cysteine thiol(s) may underlie at least in part the activation of MAPKs occurring in response to hydrogen peroxide and oxidative stress. 相似文献
130.