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Biology_Edexcel_A-snab_Alevel

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  1. the-circulatory-system
    8 主题
  2. diet-and-health
    11 主题
  3. gas-exchange-cell-membranes-and-transport
    8 主题
  4. nucleic-acids
    3 主题
  5. proteins
    10 主题
  6. inheritance
    7 主题
  7. cell-structure-and-organisation
    7 主题
  8. cell-division
    3 主题
  9. reproduction-and-inheritance
    4 主题
  10. differentiation-and-variation
    5 主题
  11. biodiversity
    9 主题
  12. resources-from-plants
    10 主题
  13. ecosystems-and-energy-transfer
    7 主题
  14. photosynthesis
    7 主题
  15. climate-change
    10 主题
  16. evolution
    3 主题
  17. forensics
    3 主题
  18. microorganisms-and-immunity
    11 主题
  19. muscles-and-movement
    3 主题
  20. respiration
    7 主题
  21. homeostasis
    4 主题
  22. exercise
    4 主题
  23. response-to-the-environment
    8 主题
  24. the-brain-behaviour-and-disease
    10 主题
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Muscle Fibres: Structure

  • Skeletal muscle makes up the muscles in the body that are attached to the skeleton

  • Skeletal muscle is made up of muscle fibres

  • A muscle fibre is a highly specialised cell-like unit:

    • Each muscle fibre contains an organised arrangement of contractile proteins in the cytoplasm

    • Each muscle fibre is surrounded by a cell surface membrane

    • Each muscle fibre contains many nuclei (multi-nucleated) – this is why muscle fibres are not usually referred to as cells

  • The different parts of a muscle fibre have different names to the equivalent parts of a normal cell:

    • Cell surface membrane = sarcolemma

    • Cytoplasm = sarcoplasm

    • Endoplasmic reticulum = sarcoplasmic reticulum (SR)

  • The sarcolemma has many deep tube-like projections that fold in from its outer surface:

    • These are known as transverse system tubules or T-tubules

    • These run close to the SR and help spread electrical impulses throughout muscle fibre

  • The sarcoplasm contains mitochondria and myofibrils

    • The mitochondria carry out aerobic respiration to generate the ATP required for muscle contraction

    • Myofibrils are bundles of actin and myosin filaments, which slide past each other during muscle contraction

  • The membranes of the SR contain protein pumps that transport calcium ions into the lumen of the SR

    • Calcium ions are needed for the contraction of muscle

Ultrastructure of striated muscle (1)_1
Ultrastructure of striated muscle (2)_1

The ultrastructure of skeletal muscle and of a section of muscle fibre

Myofibrils

  • Myofibrils are located in the sarcoplasm

  • Each myofibril is made up of two types of protein filament:

    • Thick filaments made of myosin

    • Thin filaments made of actin

  • These two types of filaments are arranged in a particular order, creating different types of bands and line

Myofibrils Parts & Descriptions Table

Myofibrils parts & descriptions table
Structure of a myofibril (1)
Structure of a myofibril (2)

The structure of a myofibril

Fast vs Slow Twitch Fibres

  • There are two types of muscle fibres found in muscles

    • Fast twitch fibres

    • Slow twitch fibres

  • Human muscles are made up of both types of muscle fibres

  • Some muscles have higher proportions of a particular fibre type due to their different properties

Fast twitch muscle fibres

  • Fast twitch muscle fibres contract rapidly

    • The myosin heads bind and unbind from the actin-binding sites five times faster than slow twitch muscle fibres

    • Their rapid contraction-relaxation cycle means they need large amounts of calcium ions present to stimulate contraction

  • They rely on anaerobic respiration for ATP supply

  • They are suited to short bursts of high-intensity activity as they fatigue quickly due to the lactate produced from anaerobic respiration

  • These muscle fibres are often found in high proportions in the limbs of animals that flee a predator or hunt prey at high speeds

    • For example, the wings of a robin and legs of a cheetah

  • There are high proportions of fast twitch muscle fibres in human eyelids

    • They contract in short bursts and do not need to sustain the rapid movement

  • Fast twitch muscle fibres have fewer capillaries

    • Blood containing glucose and oxygen flow through the capillaries

    • This means they have quite a slow supply of oxygen and glucose for aerobic respiration

  • Low amounts of myoglobin are present in fast twitch muscle fibres

    • Myoglobin is a red pigment molecule that is similar to haemoglobin

    • Myoglobin functions as a store of oxygen in muscles and increases the rate of oxygen absorption from the capillaries

  • Due to this fast twitch muscle fibres appear paler in colour than slow muscle fibres

Slow twitch muscle fibres

  • Slow twitch muscle fibres contract more slowly and are suited to sustained activities like walking and perching

  • They rely on aerobic respiration for ATP

  • They fatigue less quickly due to less lactate production, making them ideal for endurance

  • These muscle fibres are often found in high proportions in the limbs of animals that migrate or stalk prey over long distances

    • For example, the wings of geese and legs of wolves

  • Human back muscles have a high proportion of slow twitch muscle fibres

    • These muscles have to contract for long periods of time in order to keep the skeleton erect when standing or sitting

  • Slow twitch muscle fibres have a denser network of capillaries

    • Blood containing glucose and oxygen flow through the capillaries

    • This means they have a short diffusion distance and a good supply of oxygen and glucose for aerobic respiration

  • High amounts of myoglobin, haemoglobin and mitochondria are present in slow twitch muscle fibres

    • This increases the rate of oxygen supply, oxygen absorption and aerobic respiration

  • Due to the high amounts of red pigment, slow twitch muscle fibres appear a dark red

Fast Twitch & Slow Twitch Muscle Fibres Table

Fast and Slow Muscle Fibres