How Do You Spell LONG LASTING CALCIUM CHANNELS?

Pronunciation: [lˈɒŋ lˈastɪŋ kˈalsi͡əm t͡ʃˈanə͡lz] (IPA)

The spelling of "Long Lasting Calcium Channels" can be broken down using IPA phonetic transcription. The first word, "long," is spelled /lɔŋ/. The second word, "lasting," is spelled /ˈlæstɪŋ/. The third word, "calcium," is spelled /ˈkælsiəm/. Finally, the fourth word, "channels," is spelled /ˈtʃænəlz/. Together, the phrase refers to a specific type of ion channel in cells that are permeable to calcium ions and have a longer duration of opening compared to other types of channels.

LONG LASTING CALCIUM CHANNELS Meaning and Definition

  1. Long-lasting calcium channels refer to a specific type of ion channel found in cell membranes that allow the passage of calcium ions across the membrane over a prolonged period of time. These channels play a critical role in various physiological processes and are essential for specific cellular functions.

    These channels are typically voltage-gated, meaning their opening and closing is regulated by changes in the electrical potential across the cell membrane. In response to depolarization of the membrane, these channels open allowing calcium ions to flow into the cell, which can then trigger an array of intracellular events.

    Long-lasting calcium channels are particularly important in neuronal cells, where they are involved in neuronal transmission, synaptic plasticity, and neuronal survival. They are also found in various other cell types, such as muscle cells, where they participate in muscle contraction and relaxation.

    Importantly, the characteristic feature of long-lasting calcium channels is their ability to remain open for an extended period of time, allowing a sustained influx of calcium ions into the cell. This sustained calcium entry can have a significant impact on cellular activities, as calcium ions are involved in numerous signaling pathways and serve as a second messenger for many cellular processes.

    Dysregulation or dysfunction of long-lasting calcium channels has been implicated in several pathological conditions, including neurodegenerative diseases, cardiac arrhythmias, and certain forms of cancer. Therefore, understanding the properties and functions of long-lasting calcium channels is crucial for deciphering cellular signaling events and developing targeted therapeutic interventions.

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