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Redox proteomics: identification and functional role of glutathionylated proteins.

Redox proteomics: identification and functional role of glutathionylated proteins.

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Redox regulation by reversible protein S-thiolation in bacteria Thioredoxins, glutaredoxins, and peroxiredoxins--molecular mechanisms and health significance: from cofactors to antioxidants to redox signaling Redox biology: computational approaches to the investigation of functional cysteine residues Stress-induced protein S-glutathionylation in Arabidopsis.The thioredoxin-independent isoform of chloroplastic glyceraldehyde-3-phosphate dehydrogenase is selectively regulated by glutathionylation.Glutathione in cerebral microvascular endothelial biology and pathobiology: implications for brain homeostasis.In vivo tagging and characterization of S-glutathionylated proteins by a chemoenzymatic method.Redox-based regulation of signal transduction: principles, pitfalls, and promises Reduced glutathione: a radioprotector or a modulator of DNA-repair activity?Inhibition of glutathione synthesis in brain endothelial cells lengthens S-phase transit time in the cell cycle: Implications for proliferation in recovery from oxidative stress and endothelial cell damage Nonequilibrium thermodynamics of thiol/disulfide redox systems: a perspective on redox systems biology.Genetic disruption of the Nrf2 compromises cell-cycle progression by impairing GSH-induced redox signaling Mass spectrometry-based quantitative proteomics for dissecting multiplexed redox cysteine modifications in nitric oxide-protected cardiomyocyte under hypoxia.Post-translational Modifications in Regulation of Chloroplast Function: Recent Advances.Lysosomal metal, redox and proton cycles influencing the CysHis cathepsin reaction.Glutathionylspermidine in the modification of protein SH groups: the enzymology and its application to study protein glutathionylation.Reactive oxygen species, abiotic stress and stress combination.Proteomic identification and quantification of S-glutathionylation in mouse macrophages using resin-assisted enrichment and isobaric labeling.The role of annexin 1 in drought stress in Arabidopsis.Up-regulation, modification, and translocation of S100A6 induced by exposure to ionizing radiation revealed by proteomics profiling.Oxidative stress impairs function and increases redox protein modifications in human spermatozoa.Gas-Phase Oxidation via Ion/Ion Reactions: Pathways and Applications.In vivo targets of S-thiolation in Chlamydomonas reinhardtii.Evidence for a role for the putative Drosophila hGRX1 orthologue in copper homeostasis.Trapping redox partnerships in oxidant-sensitive proteins with a small, thiol-reactive cross-linker.

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P2860

Redox proteomics: identification and functional role of glutathionylated proteins.

http://www.wikidata.org/entity/Q36168403

description

2004 nî lūn-bûn

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2004年の論文

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2004年論文

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2004年論文

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2004年論文

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2004年論文

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2004年論文

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2004年论文

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2004年论文

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2004年论文

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name

Redox proteomics: identification and functional role of glutathionylated proteins.

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Redox proteomics: identification and functional role of glutathionylated proteins.

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Redox proteomics: identification and functional role of glutathionylated proteins.

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Redox proteomics: identification and functional role of glutathionylated proteins.

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Redox proteomics: identification and functional role of glutathionylated proteins.

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Redox proteomics: identification and functional role of glutathionylated proteins.

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14789450.1.3.365

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Expert Review of Proteomics

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Redox proteomics: identification and functional role of glutathionylated proteins

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Elisabetta Gianazza

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P2860

Regulation of PTP1B via glutathionylation of the active site cysteine 215

Glutaredoxins: glutathione-dependent redox enzymes with functions far beyond a simple thioredoxin backup system

Requirement for generation of H2O2 for platelet-derived growth factor signal transduction

Protein s-glutathionylation in retinal pigment epithelium converts heat shock protein 70 to an active chaperone.

Oxidative stress inhibits MEKK1 by site-specific glutathionylation in the ATP-binding domain

Activation of matrix metalloproteinases by peroxynitrite-induced protein S-glutathiolation via disulfide S-oxide formation.

Inactivation of creatine kinase by S-glutathionylation of the active-site cysteine residue.

Dopamine biosynthesis is regulated by S-glutathionylation. Potential mechanism of tyrosine hydroxylast inhibition during oxidative stress.

Protein S-thiolation targets glycolysis and protein synthesis in response to oxidative stress in the yeast Saccharomyces cerevisiae

Regeneration of peroxiredoxins during recovery after oxidative stress: only some overoxidized peroxiredoxins can be reduced during recovery after oxidative stress.

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365-376

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scholarly article

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10.1586/14789450.1.3.365

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3

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Maddalena Fratelli

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2004-10-01T00:00:00Z

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15966832

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