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Atomfair Acetylcholine ACh C7H16NO2+

Description Acetylcholine (CAS No. 1327-41-9) is a critical endogenous neurotransmitter with the molecular formula C7H16NO2SUB_SUP_3 and the IUPAC name 2-acetyloxyethyl(trimethyl)azanium . This high-purity compound is essential for neurological and physiological research, serving as a key cholinergic agonist in synaptic transmission studies. Our Acetylcholine is rigorously tested for purity and stability, ensuring optimal performance in in vitro and in vivo applications. Available in various concentrations and formats, it is ideal for electrophysiology, receptor binding assays, and drug discovery research. Each batch is accompanied by comprehensive analytical documentation, including HPLC and MS data, guaranteeing traceability and compliance with laboratory standards.

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Description

Description

Acetylcholine (CAS No. 1327-41-9) is a critical endogenous neurotransmitter with the molecular formula C7H16NO2+ and the IUPAC name 2-acetyloxyethyl(trimethyl)azanium. This high-purity compound is essential for neurological and physiological research, serving as a key cholinergic agonist in synaptic transmission studies. Our Acetylcholine is rigorously tested for purity and stability, ensuring optimal performance in in vitro and in vivo applications. Available in various concentrations and formats, it is ideal for electrophysiology, receptor binding assays, and drug discovery research. Each batch is accompanied by comprehensive analytical documentation, including HPLC and MS data, guaranteeing traceability and compliance with laboratory standards.

  • CAS No: 1327-41-9
  • Molecular Formula: C7H16NO2+
  • Molecular Weight: 146.21
  • Exact Mass: 146.118103753
  • Monoisotopic Mass: 146.118103753
  • Charge: 1
  • IUPAC Name: 2-acetyloxyethyl(trimethyl)azanium
  • SMILES: CC(=O)OCC[N+](C)(C)C
  • Synonyms: acetylcholine, Choline acetate, O-Acetylcholine, 51-84-3, Acetyl choline ion

Application

Acetylcholine is widely used in neuroscience research to study cholinergic signaling pathways and synaptic plasticity. It serves as a reference standard in pharmacological assays investigating muscarinic and nicotinic receptor activity. Researchers also employ it in electrophysiology to probe neurotransmitter release mechanisms and autonomic nervous system function.

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