myofilament

(noun)

A filament composed of either multiple myosin or actin proteins that slide over each other to generate tension.

Related Terms

Examples of myofilament in the following topics:

  • Sliding Filament Model of Contraction

    • Actin myofilaments attach directly to the Z-lines, whereas myosin myofilaments attach via titin molecules.
    • Surrounding the Z-line is the I-band, the region where actin myofilaments are not superimposed by myosin myofilaments.
    • Another protein, nebulin, is thought to perform a similar role for actin myofilaments.
    • During muscle contraction, the heads of myosin myofilaments quickly bind and release in a ratcheting fashion, pulling themselves along the actin myofilament.
    • The myofilaments themselves do not contract or expand and so the A-band remains constant.

  • Skeletal Muscle Fibers

    • Skeletal muscles are composed of striated subunits called sarcomeres, which are composed of the myofilaments actin and myosin.
    • Myofibrils are composed of long myofilaments of actin, myosin, and other associated proteins.
    • Myofibrils are composed of smaller structures called myofilaments.
    • There are two main types of myofilaments: thick filaments and thin filaments.
    • The molecular model of contraction which describes the interaction between actin and myosin myofilaments is called the cross-bridge cycle.

  • Force of Muscle Contraction

    • Muscles exist in this state to optimize the force produced during contraction, which is modulated by the interlaced myofilaments of the sarcomere.
    • If a sarcomere is stretched too far, there will be insufficient overlap of the myofilaments and the less force will be produced.
    • Simply put,  the tension generated in skeletal muscle is a function of the magnitude of overlap between actin and myosin myofilaments.
    • However, cross-bridge formation is not immediate, so if myofilaments slide over each other at a faster rate the ability to form cross bridges and resultant force are both reduced.

  • Characteristics of Muscle Tissue

    • Muscle cells, or myocytes, contain myofibrils comprised of actin and myosin myofilaments which slide past each other producing tension that changes the shape of the myocyte.
    • Smooth muscle is non-striated, although it contains the same myofilaments they are just organised differently, and involuntary.

  • Types of Muscle Tissue

    • The banding pattern of the striations reflects the alignment of the myofilament fibers.

  • Velocity and Duration of Muscle Contraction

    • However, cross-bridge formation is not immediate and if myofilaments slide over each other at a faster rate, their ability to form cross-bridges and subsequent force are both reduced.

  • Structure and Function of the Muscular System

    • Muscle cells, or myocytes, contain myofibrils comprised of actin and myosin myofilaments which slide past each other producing tension that changes the shape of the myocyte.

  • Muscle Tone

    • Both are similar to muscle fibers in that they contain actin and myosin myofilaments that allow them to stretch with the muscle.