How Do You Spell NITROXIDERGIC NEURON?

Pronunciation: [nˌa͡ɪtɹə͡ʊksɪdˈɜːd͡ʒɪk njˈuːɹɒn] (IPA)

Nitroxidergic neuron is a type of neuron that uses nitric oxide (NO) as a neurotransmitter. Its spelling can be broken down into three parts: "nitro-" meaning "nitrogen-containing," "-oxide" representing the NO compound, and "ergic" indicating that it is the source of a neurotransmitter. The IPA phonetic transcription for this word is /naɪ.troʊˈsɪd.ɝ.dʒɪk ˈnʊr.ɑn/, with stress on the second syllable of "nitroxidergic" and the first syllable of "neuron."

NITROXIDERGIC NEURON Meaning and Definition

  1. A nitroxidergic neuron is a type of specialized nerve cell within the human body that releases nitric oxide (NO) as its primary neurotransmitter. Nitroxidergic neurons play an essential role in the functioning of the nervous system and are involved in diverse physiological processes throughout the body.

    Nitric oxide is a small gaseous molecule that acts as a signaling molecule in various biological systems, including the nervous system. Nitroxidergic neurons possess the necessary enzymes to produce nitric oxide, particularly the enzyme nitric oxide synthase (NOS). When activated, these neurons release nitric oxide, which diffuses through nearby tissues and binds to specific receptors, primarily guanylate cyclase, to initiate secondary signaling cascades.

    The functions of nitroxidergic neurons are widespread and varied. They participate in regulating key processes such as synaptic transmission, learning and memory, sensory perception, and blood vessel dilation among others. Nitroxidergic neurotransmission is also involved in controlling vital physiological functions such as the regulation of blood pressure, immune response modulation, digestive processes, and the response to pain.

    Research into nitroxidergic neurons and their signaling pathways has shed light on their involvement in various neurodegenerative diseases, cardiovascular disorders, and gastrointestinal disorders. Manipulating the nitroxidergic neurotransmission system holds potential therapeutic implications for conditions like Alzheimer's disease, Parkinson's disease, hypertension, and gastrointestinal motility disorders.

    Overall, nitroxidergic neurons and their release of nitric oxide play a vital role in numerous physiological processes, making them an essential component of the intricate communication network within the nervous system.

Common Misspellings for NITROXIDERGIC NEURON

  • bitroxidergic neuron
  • mitroxidergic neuron
  • jitroxidergic neuron
  • hitroxidergic neuron
  • nutroxidergic neuron
  • njtroxidergic neuron
  • nktroxidergic neuron
  • notroxidergic neuron
  • n9troxidergic neuron
  • n8troxidergic neuron
  • nirroxidergic neuron
  • nifroxidergic neuron
  • nigroxidergic neuron
  • niyroxidergic neuron
  • ni6roxidergic neuron
  • ni5roxidergic neuron
  • niteoxidergic neuron
  • nitdoxidergic neuron
  • nitfoxidergic neuron
  • nittoxidergic neuron

Etymology of NITROXIDERGIC NEURON

The term "nitroxidergic neuron" is composed of two main components: "nitroxidergic" and "neuron".

1. Nitroxidergic: This term combines "nitro" and "xide" with the suffix "-ergic".

- "Nitro" refers to nitric oxide (NO), a chemical compound that plays a crucial role in neuronal signaling and acts as a neurotransmitter.

- "Xide" is derived from the word "oxide", indicating a compound that contains oxygen.

- The suffix "-ergic" is used to denote substances or neurons that are involved in or influenced by a particular neurotransmitter or signaling molecule.

2. Neuron: This term comes from the Greek word "neuron", meaning "nerve". A neuron is a specialized cell in the nervous system that transmits information through electrical and chemical signals.

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