How Do You Spell AMPA S ISOMER MONOHYDROBROMIDE?

Pronunciation: [ˈampəɹ ˈɛs ˈa͡ɪsəmə mˈɒnə͡ʊhˌa͡ɪdɹəbɹˌɒma͡ɪd] (IPA)

AMPA S Isomer Monohydrobromide is a chemical compound used in scientific research. The spelling of this word follows the International Phonetic Alphabet (IPA) transcription system, which represents each sound in a word with a unique symbol. In IPA, "AMPA" is spelled /æmpə/ and "Isomer" is spelled /ˈaɪsoʊmər/. "Monohydrobromide" is spelled /ˌmɑnoʊhaɪdroʊˈbraʊmaɪd/. Understanding the IPA transcription system can be helpful in accurately pronouncing complex scientific terms.

Meaning and Definition
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AMPA S ISOMER MONOHYDROBROMIDE Meaning and Definition

  1. AMPA S Isomer Monohydrobromide is a chemical compound that belongs to the class of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor agonists. It is an isomer of AMPA, which is a type of glutamate receptor found in the central nervous system that plays a crucial role in excitatory neurotransmission. The monohydrobromide salt form of AMPA S Isomer enhances the activity of AMPA receptors by binding to and activating them.

    AMPA S Isomer Monohydrobromide is commonly used in scientific research to investigate the functioning and modulation of AMPA receptors. Its specific chemical structure and properties allow researchers to study the effects of AMPA receptor activation in various biological processes, such as synaptic plasticity, learning, and memory.

    In the laboratory, AMPA S Isomer Monohydrobromide is typically prepared as a powder or crystalline solid, which can be dissolved in appropriate solvents for experimental use. It is important to handle this compound with caution, as it may have hazardous properties and should be stored and used following appropriate safety protocols.

    Overall, AMPA S Isomer Monohydrobromide is a valuable tool in the field of neuroscience research, enabling scientists to better understand the complex mechanisms underlying neurotransmission and potentially contributing to the development of therapeutic interventions targeting AMPA receptors.