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Results for "

mitochondrial defects

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Amyloid-β (1) Autophagy (1) Ferroptosis (1) HIV (1) RAD51 (4)
By Research Areas:	Cancer (5) Cardiovascular Disease (1) Infection (1) Inflammation/Immunology (1) Neurological Disease (1)

6

Inhibitors & Agonists

1

Natural
Products

Targets Recommended: Mitochondrial Metabolism Mitophagy

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

RAD51-IN-5	RAD51	Cancer
RAD51-IN-5 is a potent inhibitor of RAD51. RAD51 is a eukaryote gene. RAD51-IN-5 has the potential for the research of conditions involving mitochondrial defects (extracted from patent WO2021164746A1, compound 3) .

Oleanonic acid 1 Publications Verification 3-Oxooleanolic acid	HIV Autophagy Ferroptosis Amyloid-β	Infection Neurological Disease Inflammation/Immunology Cancer
Oleanonic acid (3-Oxooleanolic acid) is an orally available triterpene that has anti-inflammatory and insecticidal properties. In vitro, oleanonic acid can improve oxidative stress, autophagy defects, ferroptosis, mitochondrial damage, and endoplasmic reticulum stress induced by Amyloid-β, and in vivo, it can alleviate myocardial hypertrophy in rats .

RAD51-IN-6	RAD51	Cancer
RAD51-IN-6 is a potent inhibitor of RAD51. RAD51 is a eukaryote gene. RAD51-IN-6 has the potential for the research of conditions involving mitochondrial defects (extracted from patent WO2021164746A1, compound 23) .

RAD51-IN-7	RAD51	Cancer
RAD51-IN-7 is a potent inhibitor of RAD51. RAD51 is a eukaryote gene. RAD51-IN-7 has the potential for the research of conditions involving mitochondrial defects (extracted from patent WO2021164746A1, compound 71) .

RAD51-IN-4	RAD51	Cancer
RAD51-IN-4 is a potent inhibitor of RAD51. RAD51 is a eukaryote gene. RAD51-IN-4 has the potential for the research of conditions involving mitochondrial defects (extracted from patent WO2019014315A1, compound R12) .

BPU17	Others	Cardiovascular Disease
BPU17 binds to PHB1 and causes mild defects in mitochondrial function by defects in the PHB1-PHB2 interaction. This impairment inhibits the SRF/CArG-box-dependent transcription, resulting in the suppression of epithelial-mesenchymal transition (EMT) of retinal pigment epithelial cells (RPEs). BPU17 exhibits antifibrotic activity in vivo. BPU17 is promising for research of anti-neovascular age-related macular degeneration (nAMD) agent .

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