Product Description Research Compound 9-ME-BC 15 mg Capsules Research-grade capsule formulation supplied in a secure resealable container. 9-ME-BC (9-methyl-β-carboline) is an investigational β-carboline derivative studied in controlled laboratory settings for its relationship to dopaminergic signaling, neuroplasticity, mitochondrial function, oxidative stress response, and cognition-focused neuronal research pathways. Research Use Only This product is intended strictly for laboratory and scientific investigation. Not for human consumption, therapeutic use, or veterinary application. Specifications Form Capsules Content 15 mg 9-ME-BC per capsule Quantity 60 capsules Packaging Resealable container Storage Store in a dry place at room temperature, protected from light Molecular Formula C12H10N2 Molecular Weight 182.22 g·mol⁻¹ IUPAC Name 9-methyl-9H-pyrido[3,4-b]indole Other Names 9-Methyl-β-carboline, 9-Me-BC, 9-MBC CAS Number Unspecified Research Overview 9-ME-BC is studied as a neuroactive research compound with strong interest in dopaminergic modulation, neuronal plasticity, and mitochondrial bioenergetics. In experimental settings, it is investigated for its relationship to attention, motivation, cognitive processing, oxidative stress balance, and broader neuron-focused cellular research models. No therapeutic or clinical claims are made or implied. Primary Research Areas Dopaminergic Signaling Experimental investigation of dopamine-associated transporters, receptors, signaling balance, and motivation-related neuronal activity. Cognition & Attention Models Preclinical research focused on learning, memory formation, attention-related pathways, and information processing in neuronal systems. Neuroplasticity & Neuritogenesis Laboratory studies examining synaptic adaptation, neurite development, and plasticity-associated cellular pathways in neural models. Mitochondrial Function & Stress Response Research involving neuronal bioenergetics, oxidative stress balance, fatigue-resilience models, and cellular protection under experimental stress conditions.
