Pub. Date : 2022 Apr
PMID : 35114579
4 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | At high loads (>50 muM of H2O2), which caused the exhaustion of thioredoxin activity in the cell cytoplasm, the gradient stabilized, pointing out that it is the functional status of the thioredoxin-depended enzymatic system that drives the dependence of the H2O2 gradient on the oxidative load in human cells. | Hydrogen Peroxide | thioredoxin | Homo sapiens |
| 2 | At high loads (>50 muM of H2O2), which caused the exhaustion of thioredoxin activity in the cell cytoplasm, the gradient stabilized, pointing out that it is the functional status of the thioredoxin-depended enzymatic system that drives the dependence of the H2O2 gradient on the oxidative load in human cells. | Hydrogen Peroxide | thioredoxin | Homo sapiens |
| 3 | At high loads (>50 muM of H2O2), which caused the exhaustion of thioredoxin activity in the cell cytoplasm, the gradient stabilized, pointing out that it is the functional status of the thioredoxin-depended enzymatic system that drives the dependence of the H2O2 gradient on the oxidative load in human cells. | Hydrogen Peroxide | thioredoxin | Homo sapiens |
| 4 | At high loads (>50 muM of H2O2), which caused the exhaustion of thioredoxin activity in the cell cytoplasm, the gradient stabilized, pointing out that it is the functional status of the thioredoxin-depended enzymatic system that drives the dependence of the H2O2 gradient on the oxidative load in human cells. | Hydrogen Peroxide | thioredoxin | Homo sapiens |