The Muscle Fibre (Edexcel International A Level Biology): Revision Note
Muscle Fibre: 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
Is surrounded by a cell surface membrane
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
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 lines
Myofibrils Parts & Descriptions Table
The structure of a myofibril
Fast & Slow Twitch Muscle 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 flows 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
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