7,8 DHF – 60 capsules 25mg

7,8-DHF 25 mg is a research-grade 7,8-dihydroxyflavone capsule formulation, also commonly referred to as Tropoflavin. 7,8-DHF is a small-molecule flavone investigated in experimental models of neuronal signaling, neuroplasticity, cognitive function and BDNF/TrkB-related pathways. It is widely used in laboratory settings for research into brain-derived neurotrophic factor (BDNF)-associated signaling mechanisms and related cellular responses. Research Use Only: All products are intended exclusively for laboratory and scientific research. Not for human or veterinary use. Purity High-purity research compound Form Capsules Content 25 mg 7,8-DHF per capsule Quantity 60 capsules per bottle Compound name 7,8-Dihydroxyflavone (Tropoflavin) Packaging Amber research bottle with screw cap Storage Store in a cool, dry place. Protect from heat, moisture and direct light. Molecular formula C15H10O4 Molecular weight 254.24 g·mol⁻¹ IUPAC name 7,8-Dihydroxy-2-phenyl-4H-chromen-4-one CAS number 38183-03-8 7,8-DHF is commonly studied in laboratory models involving neurotrophic signaling, synaptic plasticity and cellular stress adaptation. It is frequently referenced in research focused on BDNF/TrkB-related pathways, neuronal resilience and experimental cognition frameworks. Research Overview 7,8-DHF (7,8-Dihydroxyflavone) is a flavone-based research compound used in experimental settings to investigate neuronal signaling, synaptic plasticity, cognitive performance and neurotrophic receptor activity. It has been widely examined in preclinical laboratory models for its interaction with signaling systems associated with BDNF and TrkB-mediated pathways, as well as oxidative stress response and neural adaptation. This product is supplied strictly for scientific and laboratory research purposes and is not intended to imply any therapeutic or medical application. Primary Research Areas BDNF / TrkB signaling research: Experimental models investigating receptor activation, downstream signaling cascades and neurotrophic pathway modulation. Neuroplasticity & synaptic function: Laboratory research focused on neuronal connectivity, synaptic adaptation and plasticity-associated signaling mechanisms. Cognition & neural performance models: Preclinical systems exploring learning, memory, neural resilience and brain function under controlled experimental conditions. Oxidative stress & cellular protection research: In vitro and in vivo studies examining cellular stress response, redox balance and neurobiological adaptation.