What does C mean in UNCLASSIFIED
C (Ca2 Release Activated Ca2) is a mechanism in which the release of calcium ions (Ca2+) from the sarcoplasmic reticulum (SR) activates further release of Ca2+. This process is central to the excitation-contraction coupling in striated muscle fibers.
C meaning in Unclassified in Miscellaneous
C mostly used in an acronym Unclassified in Category Miscellaneous that means Ca2 Release Activated Ca2
Shorthand: C,
Full Form: Ca2 Release Activated Ca2
For more information of "Ca2 Release Activated Ca2", see the section below.
Mechanisms
- Initial Calcium Trigger: The initial trigger for Ca2+ release is the arrival of an action potential at the muscle fiber membrane. This triggers the opening of voltage-gated calcium channels, allowing Ca2+ ions to enter the cell.
- Ca2+ Binding to Ryanodine Receptors: The influx of Ca2+ binds to ryanodine receptors (RyRs) on the SR membrane. This causes a conformational change in the RyRs, leading to their opening.
- SR Ca2+ Release: The opening of RyRs allows Ca2+ ions stored in the SR to be released into the cytosol. This sudden increase in cytosolic Ca2+ concentration activates the contractile machinery within the muscle fiber.
- Positive Feedback Loop: The released Ca2+ ions bind to additional RyRs, triggering further Ca2+ release. This creates a positive feedback loop that amplifies the initial Ca2+ signal, resulting in a rapid and synchronous release of Ca2+ from the SR.
Termination
The C mechanism is terminated by the removal of Ca2+ from the cytosol. This is achieved through:
- Ca2+ Pumps: Ca2+ pumps in the SR and plasma membrane actively transport Ca2+ back into the SR or out of the cell.
- Ca2+ Buffers: Ca2+-binding proteins within the cell, such as calmodulin and troponin C, also help to buffer Ca2+ and reduce its cytosolic concentration.
Essential Questions and Answers on Ca2 Release Activated Ca2 in "MISCELLANEOUS»UNFILED"
What is C (Ca2 Release Activated Ca2)?
C (Ca2 Release Activated Ca2) is a mechanism by which the release of calcium ions (Ca2+) from the sarcoplasmic reticulum (SR) triggers further release of Ca2+ ions through ryanodine receptors (RyRs). This process is known as calcium-induced calcium release (CICR) and plays a crucial role in muscle contraction.
How does C work?
When an action potential reaches the muscle membrane, it initiates the opening of voltage-gated calcium channels (VGCCs). The influx of Ca2+ ions through VGCCs binds to specific receptors on the SR, called ryanodine receptors (RyRs). This binding triggers a conformational change in RyRs, causing them to open and release a large amount of Ca2+ ions into the cytosol. The increase in cytosolic Ca2+ concentration activates other RyRs, leading to a further release of Ca2+ ions from the SR. This process continues in a self-amplifying manner, resulting in a massive release of Ca2+ ions, which initiates muscle contraction.
What are the physiological roles of C?
C plays a vital role in muscle contraction. It ensures that the SR releases sufficient Ca2+ ions to trigger the sliding of actin and myosin filaments, which generates muscle force. Additionally, C is involved in other physiological processes, such as regulating gene expression, cell proliferation, and apoptosis.
What are the disorders associated with C?
Dysregulation of C can contribute to several muscle disorders, including malignant hyperthermia, central core disease, and ryanodine receptor disorders. Malignant hyperthermia is a potentially life-threatening condition triggered by certain anesthetics, which leads to uncontrolled muscle contraction and a rapid increase in body temperature. Central core disease is a genetic disorder characterized by muscle weakness and stiffness. Ryanodine receptor disorders are a group of rare genetic conditions that affect the function of RyRs, resulting in muscle weakness and impaired muscle coordination.
Final Words: The C mechanism is a crucial process in muscle contraction. It allows for the rapid release of Ca2+ from the SR, which triggers the activation of the contractile machinery. This mechanism ensures that muscle fibers can respond quickly and efficiently to electrical stimuli, enabling coordinated muscle movements.
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