| 3 |
Inhibition of the mitochondrial complex I of nigro-striatal neurons leads to parkinsonian motor deficits |
Andrea Terron |
BY-SA |
888: Binding of inhibitor, NADH-ubiquinone oxidoreductase (complex I)
|
896: Parkinsonian motor deficits
|
WPHA/WNT Endorsed |
1.33 |
| 17 |
Binding of electrophilic chemicals to SH(thiol)-group of proteins and /or to seleno-proteins involved in protection against oxidative stress during brain development leads to impairment of learning and memory |
Marie-Gabrielle Zurich |
BY-SA |
1487: Binding, Thiol/seleno-proteins involved in protection against oxidative stress
|
341: Impairment, Learning and memory
|
WPHA/WNT Endorsed |
1.13 |
| 38 |
Protein Alkylation leading to Liver Fibrosis |
Brigitte Landesmann |
BY-SA |
244: Alkylation, Protein
|
344: Increase, Liver fibrosis
|
WPHA/WNT Endorsed |
1.14 |
| 39 |
Covalent Binding, Protein, leading to Increase, Allergic Respiratory Hypersensitivity Response |
Jessica Ponder |
BY-SA |
396: Covalent Binding, Protein
|
313: Increase, Allergic Respiratory Hypersensitivity Response
|
Under Development |
1.20 |
| 46 |
AFB1: Mutagenic Mode-of-Action leading to Hepatocellular Carcinoma (HCC) |
Ted Simon |
BY-SA |
373: Formation, Pro-mutagenic DNA Adducts
|
378: Tumorigenesis, Hepatocellular carcinoma
|
Under Review |
1.8 |
| 48 |
Binding of agonists to ionotropic glutamate receptors in adult brain causes excitotoxicity that mediates neuronal cell death, contributing to learning and memory impairment. |
Anna Price |
BY-SA |
875: Binding of agonist, Ionotropic glutamate receptors
|
341: Impairment, Learning and memory
|
WPHA/WNT Endorsed |
1.23 |
| 149 |
Peptide Oxidation Leading to Hypertension |
Frazer Lowe |
BY-SA |
209: Peptide Oxidation
|
952: Hypertension
|
Under Development |
1.50 |
| 173 |
Substance interaction with the pulmonary resident cell membrane components leading to pulmonary fibrosis |
Sabina Halappanavar |
All rights reserved |
1495: Substance interaction with the lung resident cell membrane components
|
1458: Pulmonary fibrosis
|
WPHA/WNT Endorsed |
1.32 |
| 220 |
Cyp2E1 Activation Leading to Liver Cancer |
Francina Webster |
BY-SA |
1391: Activation of Cyp2E1
|
1395: Liver Cancer
|
WPHA/WNT Endorsed |
1.24 |
| 260 |
CYP2E1 activation and formation of protein adducts leading to neurodegeneration |
Jelle Broeders |
BY-SA |
2 MIEs
|
1514: Neurodegeneration
|
|
|
| 282 |
Adverse outcome pathway on photochemical toxicity initiated by light exposure |
Satomi Onoue |
BY-SA |
1115: Increase, Reactive oxygen species
|
1599: Inflamatory events in light-exposed tissues
|
Under Review |
1.49 |
| 296 |
Oxidative DNA damage leading to chromosomal aberrations and mutations |
Carole Yauk |
BY-SA |
1634: Increase, Oxidative DNA damage
|
2 AOs
|
WPHA/WNT Endorsed |
1.76 |
| 301 |
Inhibition of Cystathionine Beta synthase leading to impaired the early development of anterior-posterior axis |
Young Jun Kim |
BY-SA |
1657: Inhibition of cystathionine beta-synthase
|
1667: Impaired,anterior-posterior axis development
|
|
|
| 325 |
Excessive reactive oxygen species leading to growth inhibition via uncoupling of oxidative phosphorylation and reduced cell growth |
You Song |
BY-SA |
1115: Increase, Reactive oxygen species
|
1521: Decrease, Growth
|
|
|
| 326 |
Excessive reactive oxygen species leading to growth inhibition via uncoupling of oxidative phosphorylation and reduced cell proliferation |
You Song |
BY-SA |
1115: Increase, Reactive oxygen species
|
1521: Decrease, Growth
|
|
|
| 406 |
SARS-CoV-2 infection leading to hyperinflammation |
Hasmik Yepiskoposyan |
All rights reserved |
1739: Binding to ACE2
|
1868: Hyperinflammation
|
|
|
| 443 |
DNA damage and mutations leading to Metastatic Breast Cancer |
Usha Adiga |
BY-SA |
1669: Increased, DNA damage and mutation
|
1982: metastatic breast cancer
|
Under Development |
1.103 |
| 457 |
Succinate dehydrogenase inhibition leading to increased insulin resistance through reduction in circulating thyroxine |
Simon Thomas |
Open for adoption |
2118: Succinate dehydrogenase, inhibited
|
2119: Increase, Insulin resistance
|
|
|
| 459 |
AhR activation in the thyroid leading to Subsequent Adverse Neurodevelopmental Outcomes in Mammals |
Prakash Patel |
Open for adoption |
18: Activation, AhR
|
402: Cognitive function, decreased
|
|
|
| 462 |
Activation of reactive oxygen species leading the atherosclerosis |
Hiromi Ohara |
BY-SA |
1115: Increase, Reactive oxygen species
|
None
|
|
|
| 470 |
Deposition of energy leads to abnormal vascular remodeling |
Vinita Chauhan |
BY-SA |
1686: Deposition of Energy
|
2069: Occurrence, Abnormal Vascular Remodeling
|
WPHA/WNT Endorsed |
1.89 |
| 478 |
Deposition of energy leading to occurrence of cataracts |
Vinita Chauhan |
BY-SA |
1686: Deposition of Energy
|
2083: Occurrence of Cataracts
|
WPHA/WNT Endorsed |
1.89 |
| 483 |
Deposition of Energy Leading to Learning and Memory Impairment |
Vinita Chauhan |
BY-SA |
1686: Deposition of Energy
|
341: Impairment, Learning and memory
|
WPHA/WNT Endorsed |
1.89 |
| 492 |
Glutathione conjugation leading to reproductive dysfunction via oxidative stress |
Leonardo Vieira |
All rights reserved |
2131: Conjugation, GSH
|
406: decreased, Fertility
|
|
|
| 505 |
Reactive Oxygen Species (ROS) formation leads to cancer via inflammation pathway |
John Frisch |
BY-SA |
1115: Increase, Reactive oxygen species
|
885: Increase, Cancer
|
|
|