763 | Animals (MeSH) |
677 | Humans (MeSH) |
668 | Oxidation-Reduction (MeSH) |
541 | Glutaredoxins (MeSH) |
503 | Glutaredoxins (metabolism) |
487 | Glutathione (metabolism) |
373 | Amino Acid Sequence (MeSH) |
340 | Molecular Sequence Data (MeSH) |
321 | Thioredoxins (metabolism) |
320 | Glutaredoxins (genetics) |
248 | Oxidoreductases (metabolism) |
237 | Oxidoreductases (MeSH) |
231 | Mice (MeSH) |
225 | Oxidative Stress (MeSH) |
201 | Male (MeSH) |
193 | Proteins (metabolism) |
175 | Glutaredoxins (chemistry) |
164 | Models, Molecular (MeSH) |
163 | Kinetics (MeSH) |
148 | Rats (MeSH) |
146 | Reactive Oxygen Species (metabolism) |
146 | Mutation (MeSH) |
139 | Base Sequence (MeSH) |
131 | Protein Disulfide Reductase (Glutathione) (MeSH) |
127 | Oxidoreductases (genetics) |
118 | Female (MeSH) |
117 | Thioredoxins (genetics) |
115 | Disulfides (metabolism) |
111 | Sulfhydryl Compounds (metabolism) |
111 | Proteins (chemistry) |
110 | Sequence Homology, Amino Acid (MeSH) |
108 | Sequence Alignment (MeSH) |
106 | Protein Conformation (MeSH) |
106 | Binding Sites (MeSH) |
104 | Cysteine (metabolism) |
102 | Signal Transduction (MeSH) |
102 | Proteins (genetics) |
102 | Cloning, Molecular (MeSH) |
101 | Escherichia coli (genetics) |
100 | Mitochondria (metabolism) |
100 | Cell Line (MeSH) |
95 | Protein Binding (MeSH) |
93 | Recombinant Proteins (metabolism) |
92 | Oxidoreductases (chemistry) |
92 | Escherichia coli (metabolism) |
91 | Catalysis (MeSH) |
90 | Thioredoxin-Disulfide Reductase (metabolism) |
89 | Bacterial Proteins (metabolism) |
88 | Saccharomyces cerevisiae Proteins (metabolism) |
85 | Substrate Specificity (MeSH) |
84 | Thioredoxins (chemistry) |
83 | Models, Biological (MeSH) |
83 | Iron (metabolism) |
82 | Protein Structure, Tertiary (MeSH) |
82 | Antioxidants (metabolism) |
80 | Cells, Cultured (MeSH) |
79 | Saccharomyces cerevisiae (metabolism) |
79 | Iron-Sulfur Proteins (metabolism) |
78 | Glutathione (chemistry) |
73 | Cysteine (chemistry) |
73 | Bacterial Proteins (genetics) |
72 | Saccharomyces cerevisiae (genetics) |
69 | Glutathione Reductase (metabolism) |
67 | Phylogeny (MeSH) |
67 | Hydrogen Peroxide (pharmacology) |
66 | Escherichia coli (enzymology) |
66 | Disulfides (chemistry) |
62 | Saccharomyces cerevisiae Proteins (genetics) |
62 | Arabidopsis (genetics) |
61 | Peroxiredoxins (metabolism) |
61 | Oxidative Stress (drug effects) |
61 | Mutagenesis, Site-Directed (MeSH) |
59 | Cattle (MeSH) |
58 | Recombinant Proteins (chemistry) |
58 | Mice, Inbred C57BL (MeSH) |
58 | Gene Expression (MeSH) |
58 | Blotting, Western (MeSH) |
57 | Protein Structure, Secondary (MeSH) |
57 | Protein Folding (MeSH) |
57 | Glutathione Transferase (metabolism) |
56 | Sulfhydryl Compounds (chemistry) |
56 | Cytosol (metabolism) |
56 | Catalytic Domain (MeSH) |
56 | Bacterial Proteins (chemistry) |
55 | Time Factors (MeSH) |
54 | RNA, Messenger (metabolism) |
54 | Hydrogen-Ion Concentration (MeSH) |
54 | Hydrogen Peroxide (metabolism) |
53 | Cell Line, Tumor (MeSH) |
52 | Plant Proteins (metabolism) |
52 | Oxidative Stress (physiology) |
50 | Saccharomyces cerevisiae (enzymology) |
50 | Recombinant Proteins (genetics) |
50 | Arabidopsis Proteins (metabolism) |
49 | Protein Processing, Post-Translational (MeSH) |
49 | Liver (enzymology) |
49 | Arabidopsis (metabolism) |
48 | Peroxidases (metabolism) |
48 | Mice, Knockout (MeSH) |
48 | Iron-Sulfur Proteins (chemistry) |
48 | Crystallography, X-Ray (MeSH) |
47 | Swine (MeSH) |
47 | Glutathione Disulfide (metabolism) |
47 | Gene Expression Regulation, Plant (MeSH) |
46 | NADP (metabolism) |
46 | Glutathione Peroxidase (metabolism) |
46 | Arabidopsis Proteins (genetics) |
45 | Peroxiredoxins (MeSH) |
45 | Dose-Response Relationship, Drug (MeSH) |
44 | Molecular Weight (MeSH) |
44 | Gene Expression Regulation (MeSH) |
43 | Ribonucleotide Reductases (metabolism) |
43 | Oxidation-Reduction (drug effects) |
43 | Electrophoresis, Polyacrylamide Gel (MeSH) |
42 | Rats, Sprague-Dawley (MeSH) |
41 | Transcription Factors (metabolism) |
40 | Signal Transduction (physiology) |
40 | Homeostasis (MeSH) |
40 | Gene Expression Profiling (MeSH) |
39 | Apoptosis (MeSH) |
38 | Middle Aged (MeSH) |
38 | Magnetic Resonance Spectroscopy (MeSH) |
38 | Glutaredoxins (physiology) |
38 | Adult (MeSH) |
37 | RNA, Messenger (genetics) |
37 | Plant Proteins (genetics) |
37 | Oxidative Stress (genetics) |
36 | Thioredoxin-Disulfide Reductase (genetics) |
36 | Reverse Transcriptase Polymerase Chain Reaction (MeSH) |
36 | Oxygen (metabolism) |
36 | Immunohistochemistry (MeSH) |
36 | Disease Models, Animal (MeSH) |
35 | Structure-Activity Relationship (MeSH) |
35 | Saccharomyces cerevisiae Proteins (chemistry) |
35 | Recombinant Fusion Proteins (metabolism) |
35 | Genes, Bacterial (MeSH) |
35 | Enzyme Activation (MeSH) |
34 | Transcription, Genetic (MeSH) |
34 | Dimerization (MeSH) |
33 | Oxidoreductases (isolation & purification) |
33 | Glutathione (pharmacology) |
32 | Phenotype (MeSH) |
32 | NF-kappa B (metabolism) |
32 | Mitochondrial Proteins (metabolism) |
32 | Cell Survival (drug effects) |
32 | Cell Nucleus (metabolism) |
32 | Carrier Proteins (metabolism) |
32 | Aged (MeSH) |
31 | NADH, NADPH Oxidoreductases (metabolism) |
31 | HeLa Cells (MeSH) |
30 | Thioredoxin-Disulfide Reductase (chemistry) |
30 | Thermodynamics (MeSH) |
30 | Recombinant Fusion Proteins (genetics) |
30 | Oxidants (pharmacology) |
30 | Mass Spectrometry (MeSH) |
30 | Glutathione (analogs & derivatives) |
30 | Gene Deletion (MeSH) |
30 | Conserved Sequence (MeSH) |
30 | Catalase (metabolism) |
30 | Amino Acid Motifs (MeSH) |
29 | Transfection (MeSH) |
29 | Superoxide Dismutase (metabolism) |
29 | Sulfur (metabolism) |
29 | Rabbits (MeSH) |
29 | Oxidoreductases (physiology) |
28 | Gene Expression Regulation, Fungal (MeSH) |
28 | Cysteine (genetics) |
27 | Up-Regulation (MeSH) |
27 | Plants (metabolism) |
27 | Peroxidases (genetics) |
27 | Liver (metabolism) |
27 | In Vitro Techniques (MeSH) |
27 | Glutathione Transferase (chemistry) |
27 | Glutathione (physiology) |
27 | Antioxidants (pharmacology) |
26 | Mitochondria (enzymology) |
26 | Iron-Sulfur Proteins (genetics) |
26 | HEK293 Cells (MeSH) |
26 | Gene Expression Regulation, Bacterial (MeSH) |
26 | Escherichia coli Proteins (metabolism) |
26 | Escherichia coli Proteins (genetics) |
26 | Escherichia coli (MeSH) |
26 | Cytosol (enzymology) |
26 | Circular Dichroism (MeSH) |
25 | Transcription Factors (genetics) |
25 | Proteomics (MeSH) |
25 | Protein Disulfide-Isomerases (metabolism) |
25 | Isoenzymes (metabolism) |
25 | Enzyme Inhibitors (pharmacology) |
24 | Species Specificity (MeSH) |
24 | Protein Disulfide Reductase (Glutathione) (metabolism) |
24 | Phosphorylation (MeSH) |
24 | Insulin (metabolism) |
24 | Green Fluorescent Proteins (metabolism) |
24 | Escherichia coli Proteins (chemistry) |
23 | Proteins (isolation & purification) |
23 | Protein Multimerization (MeSH) |
23 | Peroxiredoxins (genetics) |
23 | NADH, NADPH Oxidoreductases (chemistry) |
23 | Mutation (genetics) |
23 | Green Fluorescent Proteins (genetics) |
23 | Glutathione (genetics) |
23 | Genes, Plant (MeSH) |
23 | Escherichia coli (chemistry) |
23 | DNA Primers (MeSH) |
23 | Arabidopsis (enzymology) |
23 | Apoptosis (drug effects) |
22 | Protein Transport (MeSH) |
22 | Nuclear Magnetic Resonance, Biomolecular (MeSH) |
22 | Glutaredoxins (antagonists & inhibitors) |
22 | Genetic Complementation Test (MeSH) |
22 | Evolution, Molecular (MeSH) |
22 | Dithiothreitol (pharmacology) |
22 | Cytoplasm (metabolism) |
22 | Arabidopsis (growth & development) |
21 | Superoxide Dismutase (genetics) |
21 | Signal Transduction (drug effects) |
21 | Sequence Analysis, DNA (MeSH) |
21 | Ribonucleotide Reductases (genetics) |
21 | Recombinant Proteins (isolation & purification) |
21 | Oxidoreductases (antagonists & inhibitors) |
21 | Oryza (genetics) |
21 | Multienzyme Complexes (metabolism) |
21 | Mitochondrial Proteins (genetics) |
21 | Glutathione Transferase (genetics) |
21 | Fungal Proteins (metabolism) |
20 | Protozoan Proteins (metabolism) |
20 | Multienzyme Complexes (chemistry) |
20 | Mice, Transgenic (MeSH) |
20 | Epithelial Cells (metabolism) |
20 | Chromatography, High Pressure Liquid (MeSH) |
20 | Carrier Proteins (genetics) |
19 | Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization (MeSH) |
19 | Rats, Wistar (MeSH) |
19 | Plasmids (MeSH) |
19 | Oligonucleotide Array Sequence Analysis (MeSH) |
19 | Myocardium (metabolism) |
19 | Genotype (MeSH) |
19 | Amino Acid Substitution (MeSH) |
18 | Temperature (MeSH) |
18 | Recombinant Fusion Proteins (chemistry) |
18 | Protozoan Proteins (genetics) |
18 | Polymerase Chain Reaction (MeSH) |
18 | Plants, Genetically Modified (MeSH) |
18 | Plant Proteins (chemistry) |
18 | Peroxiredoxins (chemistry) |
18 | Peroxidases (chemistry) |
18 | Molecular Chaperones (metabolism) |
18 | Models, Chemical (MeSH) |
18 | Mice, Inbred BALB C (MeSH) |
18 | Lung (metabolism) |
18 | Isoenzymes (genetics) |
18 | Immunoblotting (MeSH) |
18 | Hydrogen Bonding (MeSH) |
18 | Glutathione Reductase (genetics) |
18 | DNA, Complementary (genetics) |
18 | Computer Simulation (MeSH) |
17 | Signal Transduction (genetics) |
17 | Saccharomyces cerevisiae (growth & development) |
17 | Protein Biosynthesis (MeSH) |
17 | Pregnancy (MeSH) |
17 | Membrane Proteins (metabolism) |
17 | Ligands (MeSH) |
17 | Glutaredoxins (deficiency) |
17 | Escherichia coli Proteins (MeSH) |
16 | Tumor Cells, Cultured (MeSH) |
16 | Tissue Distribution (MeSH) |
16 | Sequence Homology, Nucleic Acid (MeSH) |
16 | Schizosaccharomyces pombe Proteins (metabolism) |
16 | RNA, Small Interfering (genetics) |
16 | RNA Interference (MeSH) |
16 | Proteome (metabolism) |
16 | NADPH Oxidases (metabolism) |
16 | Myocytes, Cardiac (metabolism) |
16 | Membrane Proteins (genetics) |
16 | Lens, Crystalline (enzymology) |
16 | Glutaredoxins (biosynthesis) |
16 | Epithelial Cells (drug effects) |
16 | Down-Regulation (MeSH) |
16 | DNA, Bacterial (genetics) |
16 | Biocatalysis (MeSH) |
16 | Arabidopsis (drug effects) |
15 | Stress, Physiological (MeSH) |
15 | Schizosaccharomyces (genetics) |
15 | Saccharomyces cerevisiae Proteins (MeSH) |
15 | Reactive Oxygen Species (MeSH) |
15 | Protozoan Proteins (chemistry) |
15 | Proto-Oncogene Proteins c-akt (metabolism) |
15 | Proteins (analysis) |
15 | Protein Isoforms (metabolism) |
15 | Plasmodium falciparum (metabolism) |
15 | Lens, Crystalline (metabolism) |
15 | Iron (chemistry) |
15 | Escherichia coli (drug effects) |
15 | Enzyme Activation (drug effects) |
15 | Electron Transport (MeSH) |
15 | Dehydroascorbic Acid (metabolism) |
15 | Chromatography, Gel (MeSH) |
15 | Cell Proliferation (MeSH) |
15 | Biological Transport (MeSH) |
15 | Arabidopsis Proteins (chemistry) |
15 | Apoptosis (physiology) |
15 | Adenosine Triphosphate (metabolism) |
14 | Thioredoxins (antagonists & inhibitors) |
14 | Protein Structure, Quaternary (MeSH) |
14 | Protein Interaction Domains and Motifs (MeSH) |
14 | Plasmids (metabolism) |
14 | Organ Specificity (MeSH) |
14 | Open Reading Frames (MeSH) |
14 | Nitric Oxide Synthase Type III (metabolism) |
14 | Nitric Oxide (metabolism) |
14 | Neurons (metabolism) |
14 | Molecular Structure (MeSH) |
14 | Microscopy, Fluorescence (MeSH) |
14 | Glucose (metabolism) |
14 | Genes, Fungal (MeSH) |
14 | Gene Expression Regulation, Enzymologic (MeSH) |
14 | Fungal Proteins (genetics) |
14 | Enzyme Stability (MeSH) |
14 | DNA-Binding Proteins (metabolism) |
14 | Cysteine (MeSH) |
14 | Antineoplastic Agents (pharmacology) |
14 | Actins (metabolism) |
13 | Thioredoxins (analysis) |
13 | Thioredoxin-Disulfide Reductase (antagonists & inhibitors) |
13 | Schizosaccharomyces pombe Proteins (genetics) |
13 | Schizosaccharomyces (metabolism) |
13 | Proteins (physiology) |
13 | Protein Disulfide-Isomerases (MeSH) |
13 | Promoter Regions, Genetic (MeSH) |
13 | Peptides (chemistry) |
13 | Oxidoreductases (blood) |
13 | Oryza (metabolism) |
13 | Multigene Family (MeSH) |
13 | Metabolic Networks and Pathways (MeSH) |
13 | Isoelectric Focusing (MeSH) |
13 | Glyceraldehyde-3-Phosphate Dehydrogenases (metabolism) |
13 | Glutathione Disulfide (chemistry) |
13 | Glutaredoxins (isolation & purification) |
13 | Glutaredoxins (analysis) |
13 | Gene Expression Regulation, Enzymologic (drug effects) |
13 | Escherichia coli (growth & development) |
13 | Erythrocytes (metabolism) |
13 | Enzyme-Linked Immunosorbent Assay (MeSH) |
13 | Endothelial Cells (metabolism) |
13 | Disulfides (MeSH) |
13 | Diamide (pharmacology) |
13 | Cysteine (analogs & derivatives) |
13 | Crystallization (MeSH) |
13 | Carrier Proteins (chemistry) |
13 | Blotting, Northern (MeSH) |
13 | Antioxidants (chemistry) |
13 | Aging (metabolism) |
12 | Up-Regulation (drug effects) |
12 | Two-Hybrid System Techniques (MeSH) |
12 | Thioredoxin Reductase 1 (metabolism) |
12 | Sulfur (chemistry) |
12 | Software (MeSH) |
12 | Saccharomyces cerevisiae (drug effects) |
12 | Saccharomyces cerevisiae (cytology) |
12 | Saccharomyces cerevisiae (chemistry) |
12 | Recombinant Proteins (biosynthesis) |
12 | RNA, Small Interfering (metabolism) |
12 | RNA, Messenger (analysis) |
12 | Protons (MeSH) |
12 | Proteomics (methods) |
12 | Protein Isoforms (genetics) |
12 | Peroxides (metabolism) |
12 | Nitrogen Isotopes (MeSH) |
12 | Lung (pathology) |
12 | Immunoprecipitation (MeSH) |
12 | Glutathione Disulfide (MeSH) |
12 | Gene Library (MeSH) |
12 | Gene Expression Regulation, Plant (drug effects) |
12 | Fluorescence (MeSH) |
12 | Erythrocytes (enzymology) |
12 | Electrophoresis, Gel, Two-Dimensional (MeSH) |
12 | Copper (metabolism) |
12 | Chloroplasts (metabolism) |
12 | Anemia, Sideroblastic (genetics) |
12 | Amino Acids (analysis) |
11 | Viral Proteins (genetics) |
11 | Thioredoxins (physiology) |
11 | Thioredoxins (pharmacology) |
11 | Thioredoxin Reductase 1 (genetics) |
11 | Static Electricity (MeSH) |
11 | Populus (enzymology) |
11 | Plant Roots (metabolism) |
11 | Photosynthesis (MeSH) |
11 | Oxidoreductases (biosynthesis) |
11 | Oxidants (metabolism) |
11 | Myocytes, Cardiac (drug effects) |
11 | Muscle, Skeletal (metabolism) |
11 | Mitochondria (genetics) |
11 | Mitochondria (drug effects) |
11 | Glutathione Reductase (chemistry) |
11 | Gene Expression Regulation (drug effects) |
11 | Flowers (growth & development) |
11 | Electron Transport Complex I (metabolism) |
11 | DNA-Binding Proteins (genetics) |
11 | Chromosome Mapping (MeSH) |
11 | Chromatography, Affinity (MeSH) |
11 | Cell Proliferation (drug effects) |
11 | Catalase (genetics) |
11 | Brain (metabolism) |
11 | Ascorbic Acid (metabolism) |
11 | Arsenite Transporting ATPases (MeSH) |
11 | Arsenates (metabolism) |
11 | Alternative Splicing (MeSH) |
11 | Algorithms (MeSH) |
11 | Adaptation, Physiological (MeSH) |
10 | Synechocystis (enzymology) |
10 | Superoxides (metabolism) |
10 | Superoxide Dismutase-1 (MeSH) |
10 | Subcellular Fractions (metabolism) |
10 | Selenocysteine (metabolism) |
10 | Saccharomyces cerevisiae (physiology) |
10 | Ribonucleotide Reductases (chemistry) |
10 | Restriction Mapping (MeSH) |
10 | Repressor Proteins (genetics) |
10 | Rats, Inbred Strains (MeSH) |
10 | Proteins (pharmacology) |
10 | Protein Processing, Post-Translational (physiology) |
10 | Protein Disulfide Reductase (Glutathione) (chemistry) |
10 | Plasmodium falciparum (enzymology) |
10 | Plant Leaves (metabolism) |
10 | Parkinson Disease (metabolism) |
10 | Oxygen (chemistry) |
10 | Neurons (pathology) |
10 | Neurons (drug effects) |
10 | NF-E2-Related Factor 2 (metabolism) |
10 | NADH, NADPH Oxidoreductases (genetics) |
10 | Myocardium (pathology) |
10 | Myocardium (enzymology) |
10 | Mutagenesis (MeSH) |
10 | Multienzyme Complexes (genetics) |
10 | Molecular Dynamics Simulation (MeSH) |
10 | Mitochondrial Proteins (chemistry) |
10 | Methionine Sulfoxide Reductases (metabolism) |
10 | Lipopolysaccharides (pharmacology) |
10 | Lens, Crystalline (cytology) |
10 | Jurkat Cells (MeSH) |
10 | Isomerases (metabolism) |
10 | Intracellular Signaling Peptides and Proteins (metabolism) |
10 | Inflammation (metabolism) |
10 | Hydrogen Peroxide (chemistry) |
10 | Hot Temperature (MeSH) |
10 | Glutathione Peroxidase (genetics) |
10 | Gene Knockdown Techniques (MeSH) |
10 | Gene Expression (drug effects) |
10 | Fungal Proteins (chemistry) |
10 | Ferredoxins (metabolism) |
10 | Endothelium, Vascular (drug effects) |
10 | Endoplasmic Reticulum (metabolism) |
10 | DNA Primers (genetics) |
10 | Cytokines (metabolism) |
10 | Chloroplasts (enzymology) |
10 | Cell Survival (MeSH) |
10 | Carbon Isotopes (MeSH) |
10 | Biosensing Techniques (MeSH) |
9 | X-Ray Diffraction (MeSH) |
9 | Trypanosoma brucei brucei (enzymology) |
9 | Thioredoxins (isolation & purification) |
9 | Thioredoxins (biosynthesis) |
9 | Tandem Mass Spectrometry (MeSH) |
9 | Stress, Physiological (genetics) |
9 | Spermidine (metabolism) |
9 | Spermidine (analogs & derivatives) |
9 | Spectrometry, Fluorescence (MeSH) |
9 | Sodium-Potassium-Exchanging ATPase (metabolism) |
9 | Selenocysteine (chemistry) |
9 | Real-Time Polymerase Chain Reaction (MeSH) |
9 | RNA, Messenger (biosynthesis) |
9 | Protein-Serine-Threonine Kinases (metabolism) |
9 | Protein Subunits (metabolism) |
9 | Protein Stability (MeSH) |
9 | Protein Processing, Post-Translational (drug effects) |
9 | Protein Engineering (MeSH) |
9 | Protein Disulfide Reductase (Glutathione) (genetics) |
9 | Protein Denaturation (MeSH) |
9 | Populus (genetics) |
9 | Photosynthesis (physiology) |
9 | Peptide Fragments (chemistry) |
9 | Nuclear Proteins (metabolism) |
9 | Molecular Chaperones (genetics) |
9 | Mitochondria, Heart (metabolism) |
9 | Luminescent Proteins (metabolism) |
9 | Iron-Sulfur Proteins (biosynthesis) |
9 | Hydrogen Peroxide (toxicity) |
9 | Homeostasis (physiology) |
9 | Hep G2 Cells (MeSH) |
9 | Glutaredoxins (pharmacology) |
9 | Glutamate-Cysteine Ligase (metabolism) |
9 | Genes, Reporter (MeSH) |
9 | Gene Silencing (MeSH) |
9 | Gene Expression Regulation, Developmental (MeSH) |
9 | Flowers (metabolism) |
9 | Epithelial Cells (enzymology) |
9 | Electrons (MeSH) |
9 | DNA (metabolism) |