scholarly article | Q13442814 |
P50 | author | Elias Arnér | Q5360441 |
Galina Selivanova | Q50923870 | ||
Qing Cheng | Q54443949 | ||
Tatyana Sandalova | Q28323251 | ||
Ylva Lindqvist | Q28324830 | ||
Péter Nagy | Q41685167 | ||
Charles Myers | Q43157823 | ||
P2093 | author name string | J Xu | |
U Hellman | |||
W E Antholine | |||
S E Eriksson | |||
E Hedström | |||
M Cebula | |||
I Pader | |||
P2860 | cites work | Photoinduced spin-polarized radical pair formation in a DNA photolyase.substrate complex at low temperature. | Q54616942 |
Fluorescence analysis of flavoproteins | Q73012885 | ||
Nordihydroguaiaretic acid is a potent in vitro scavenger of peroxynitrite, singlet oxygen, hydroxyl radical, superoxide anion and hypochlorous acid and prevents in vivo ozone-induced tyrosine nitration in lungs | Q82901635 | ||
Redox regulation of cell signaling by selenocysteine in mammalian thioredoxin reductases | Q22003810 | ||
Structure and mechanism of mammalian thioredoxin reductase: the active site is a redox-active selenolthiol/selenenylsulfide formed from the conserved cysteine-selenocysteine sequence | Q24683648 | ||
Tryptophan-accelerated electron flow through proteins | Q27650958 | ||
Crystal structure and catalysis of the selenoprotein thioredoxin reductase 1 | Q27653053 | ||
Crystal structure of the human thioredoxin reductase-thioredoxin complex | Q27670772 | ||
Mutagenesis of tryptophan199 suggests that hopping is required for MauG-dependent tryptophan tryptophylquinone biosynthesis | Q27674714 | ||
Overview of the CCP4 suite and current developments | Q27860782 | ||
Phasercrystallographic software | Q27860930 | ||
Refinement of macromolecular structures by the maximum-likelihood method | Q27861011 | ||
Features and development of Coot | Q27861079 | ||
The integration of macromolecular diffraction data | Q27861123 | ||
The mammalian cytosolic selenoenzyme thioredoxin reductase reduces ubiquinone. A novel mechanism for defense against oxidative stress | Q28570071 | ||
Highly active dimeric and low-activity tetrameric forms of selenium-containing rat thioredoxin reductase 1 | Q28576439 | ||
Essential role of selenium in the catalytic activities of mammalian thioredoxin reductase revealed by characterization of recombinant enzymes with selenocysteine mutations | Q28581387 | ||
Selenite is a substrate for calf thymus thioredoxin reductase and thioredoxin and elicits a large non-stoichiometric oxidation of NADPH in the presence of oxygen | Q28627251 | ||
Selenocysteine, identified as the penultimate C-terminal residue in human T-cell thioredoxin reductase, corresponds to TGA in the human placental gene | Q29409898 | ||
Signal transduction by reactive oxygen species | Q29615230 | ||
Reconciling the chemistry and biology of reactive oxygen species | Q29615709 | ||
Small molecule RITA binds to p53, blocks p53-HDM-2 interaction and activates p53 function in tumors. | Q33209208 | ||
Cell death by SecTRAPs: thioredoxin reductase as a prooxidant killer of cells | Q33326607 | ||
Mechanisms of protein oligomerization, the critical role of insertions and deletions in maintaining different oligomeric states | Q33737261 | ||
Thioredoxin and related molecules--from biology to health and disease | Q34583038 | ||
Protein-protein interactions: structurally conserved residues distinguish between binding sites and exposed protein surfaces | Q35022059 | ||
Radical initiation in the class I ribonucleotide reductase: long-range proton-coupled electron transfer? | Q35150156 | ||
Dissection of the triple tryptophan electron transfer chain in Escherichia coli DNA photolyase: Trp382 is the primary donor in photoactivation | Q35170442 | ||
Identification and characterization of a selenoprotein family containing a diselenide bond in a redox motif | Q35956809 | ||
Thioredoxin and thioredoxin target proteins: from molecular mechanisms to functional significance | Q36629722 | ||
The thioredoxin system in cancer | Q36648323 | ||
Redox activation of Fe(III)-thiosemicarbazones and Fe(III)-bleomycin by thioredoxin reductase: specificity of enzymatic redox centers and analysis of reactive species formation by ESR spin trapping | Q36844094 | ||
Redox control of cell fate by MAP kinase: physiological roles of ASK1-MAP kinase pathway in stress signaling | Q37060629 | ||
Selenocysteine: the 21st amino acid | Q37088696 | ||
Spectroscopic evidence for an engineered, catalytically active Trp radical that creates the unique reactivity of lignin peroxidase. | Q37364178 | ||
Focus on mammalian thioredoxin reductases--important selenoproteins with versatile functions | Q37443200 | ||
ROS-dependent activation of JNK converts p53 into an efficient inhibitor of oncogenes leading to robust apoptosis. | Q37631181 | ||
The thioredoxin system as a therapeutic target in human health and disease. | Q38067821 | ||
A mechanistic investigation of the C-terminal redox motif of thioredoxin reductase from Plasmodium falciparum | Q38311040 | ||
Why is mammalian thioredoxin reductase 1 so dependent upon the use of selenium? | Q38311123 | ||
RITA can induce cell death in p53-defective cells independently of p53 function via activation of JNK/SAPK and p38. | Q38976657 | ||
p53-dependent inhibition of TrxR1 contributes to the tumor-specific induction of apoptosis by RITA. | Q39786272 | ||
Assessment of production conditions for efficient use of Escherichia coli in high-yield heterologous recombinant selenoprotein synthesis. | Q40130714 | ||
Overexpression of enzymatically active human cytosolic and mitochondrial thioredoxin reductase in HEK-293 cells. Effect on cell growth and differentiation. | Q40506655 | ||
Characterization of electron tunneling and hole hopping reactions between different forms of MauG and methylamine dehydrogenase within a natural protein complex | Q41462551 | ||
Compensating for the absence of selenocysteine in high-molecular weight thioredoxin reductases: the electrophilic activation hypothesis. | Q41892323 | ||
Multifrequency high-field EPR study of the tryptophanyl and tyrosyl radical intermediates in wild-type and the W191G mutant of cytochrome c peroxidase. | Q43678122 | ||
X- and W-band EPR and Q-band ENDOR studies of the flavin radical in the Na+ -translocating NADH:quinone oxidoreductase from Vibrio cholerae | Q44270882 | ||
Interactions of quinones with thioredoxin reductase: a challenge to the antioxidant role of the mammalian selenoprotein | Q44646961 | ||
Evidence for intriguingly complex transcription of human thioredoxin reductase 1. | Q44774494 | ||
Noble metal targeting of thioredoxin reductase--covalent complexes with thioredoxin and thioredoxin-related protein of 14 kDa triggered by cisplatin. | Q45584374 | ||
Detection of a tryptophan radical as an intermediate species in the reaction of horseradish peroxidase mutant (Phe-221 --> Trp) and hydrogen peroxide | Q48010875 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P921 | main subject | cell death | Q2383867 |
P304 | page(s) | e1616 | |
P577 | publication date | 2015-01-22 | |
P1433 | published in | Cell Death and Disease | Q2197222 |
P1476 | title | The conserved Trp114 residue of thioredoxin reductase 1 has a redox sensor-like function triggering oligomerization and crosslinking upon oxidative stress related to cell death | |
P478 | volume | 6 |
Q36532821 | A novel persulfide detection method reveals protein persulfide- and polysulfide-reducing functions of thioredoxin and glutathione systems. |
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Q36732635 | Predicting the Cytotoxic Potency of Cigarette Smoke by Assessing the Thioredoxin Reductase Inhibitory Capacity of Cigarette Smoke Extract |
Q47253881 | The A to Z of modulated cell patterning by mammalian thioredoxin reductases. |
Q50904199 | Thioredoxin reductase 1 and NADPH directly protect protein tyrosine phosphatase 1B from inactivation during H2O2 exposure. |
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