How Do You Spell DIHYDROPYRIDINE RECEPTOR?

Pronunciation: [da͡ɪhˈa͡ɪdɹəpˌɪɹɪdˌiːn ɹɪsˈɛptə] (IPA)

The proper spelling of the term "Dihydropyridine Receptor" is one that can be quite complex for many individuals. The word is pronounced as /daɪˌhaɪd.rəʊˈpɪr.ɪ.diːn/ in IPA phonetic transcription. The "di" prefix indicates two, while "hydro" refers to hydrogen, and "pyridine" indicates a six-membered ring molecule. Therefore, "dihydropyridine" is a class of ring molecules that contain two hydrogen atoms. The "receptor" suffix indicates that it is responsible for identifying and binding a specific molecule.

DIHYDROPYRIDINE RECEPTOR Meaning and Definition

  1. The Dihydropyridine Receptor (DHPR) is a type of voltage-gated calcium channel found primarily in skeletal muscle cells and in certain neurons of the central nervous system. It is a large transmembrane protein complex that plays a crucial role in muscle contraction and other cellular processes that rely on calcium signaling.

    The DHPR consists of five subunits, each with distinct functions. The α1 subunit forms the main pore conducting calcium ions and is responsible for voltage-sensing and regulation. The α2 subunit functions as a regulatory subunit, while the β subunit aids in membrane targeting and activation. The γ and α2δ subunits are auxiliary subunits that modulate DHPR activity.

    The DHPR serves as a voltage sensor, responding to changes in the electrical potential across the cell membrane. Upon depolarization, the DHPR undergoes a conformational change, leading to the opening of the calcium channel pore. This allows extracellular calcium to enter the cell, triggering various cellular processes, notably muscle contraction.

    In skeletal muscle, the DHPR functions together with the Ryanodine Receptor (RyR) in a process known as excitation-contraction coupling. Upon activation of the DHPR by depolarization, it interacts with the RyR, located on the sarcoplasmic reticulum, to release calcium ions into the cytoplasm. This calcium then binds to troponin, initiating a series of molecular events that ultimately result in muscle contraction.

    Overall, the Dihydropyridine Receptor is a key component of the calcium signaling machinery in muscle cells and certain neurons, playing an essential role in the regulation of cellular processes such as muscle contraction.

Common Misspellings for DIHYDROPYRIDINE RECEPTOR

  • sihydropyridine receptor
  • xihydropyridine receptor
  • cihydropyridine receptor
  • fihydropyridine receptor
  • rihydropyridine receptor
  • eihydropyridine receptor
  • duhydropyridine receptor
  • djhydropyridine receptor
  • dkhydropyridine receptor
  • dohydropyridine receptor
  • d9hydropyridine receptor
  • d8hydropyridine receptor
  • digydropyridine receptor
  • dibydropyridine receptor
  • dinydropyridine receptor
  • dijydropyridine receptor
  • diuydropyridine receptor
  • diyydropyridine receptor
  • dihtdropyridine receptor
  • dihgdropyridine receptor

Etymology of DIHYDROPYRIDINE RECEPTOR

The etymology of the word "dihydropyridine receptor" can be broken down as follows:

1. Dihydro: The prefix "di-" indicates "two" or "double", and "hydro" comes from the Greek word for "water". In this context, it refers to a chemical structure with two hydrogen atoms attached to a particular position.

2. Pyridine: "Pyridine" refers to a six-membered aromatic ring structure composed of five carbon atoms and one nitrogen atom. It is a basic nitrogen-containing heterocycle often found in organic compounds.

3. Receptor: "Receptor" comes from the Latin word "recipere", meaning "to receive". In biology, a receptor is a protein or molecular structure that is capable of binding to specific molecules (ligands), often triggering a biochemical response.

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