Muscles Flashcards
Describe the structure of a myosin protein
Bulbous head
Tail
Quaternary structure - two proteins held together
What do the two binding site on the myosin head bind to ?
Actin
ATP
Name the ion that binds to troponin
Calcium ions
Name the protein that covers the myosin binding sites when the muscle is not contracting
Tropomyosin
What is the name of the theory that explain muscle contraction?
Sliding filament theory
Name the two types of filament involved in the sliding filament theory
Myosin and actin
Describe the role of ATP in muscle contraction
Attachment of ATP on myosin head causes myosin to detach from actin. Causes the actinomycin cross bridge to break
Hydrolysis of ATP (on myosin head) causes myosin to re-cock
Describe the role of calcium ions in muscle contraction
Calcium ions diffuse into myofibrils from sarcoplasmic reticulum
Bind to troponin
Tropomyosin moves to reveal myosin binding sites
Myosin heads attach to binding sites on actin
Describe the role of glycogen in skeletal muscle
Hydrolysed to form glucose
Respired to release ATP
Name the connection that forms when myosin binds to actin
Actinomyosin bridge
Name three types of muscle found in the body and state where they are located.
Cardiac - exclusively in the heart
Smooth- walls of blood vessels and intestine
Skeletal - attached to bones by tendons
What does the term ‘antagonistic pair’ means in terms of muscles?
Muscles act in pairs to pull joint n opposite directions
Describe the gross structure of the skeletal muscle
Muscle cells fused together to form bundles of parallel muscle fibres (myofibrils)
Describe the microscopic structure of skeletal muscle
Myofibrils - site of contraction
Sarcoplasm - shared nuclei and cytoplasm with lots of mitochondria and endoplasmic reticulum
Sarcolemma - cell membrane folds inwards to form T tubules
Describe how an action potential is transmitted to the muscle cells at a neuromuscular junction
Action potential arrives at junction.
Calcium ion channels open and calcium ions diffuse into the pre-synaptic knob
Vesicles move towards and fuse with pre-synaptic membrane
Acetylcholine released and diffuses across synapse.
Acetylcholine binds to rector site on the muscle cell membrane (sarcolemma).
Sodium ions channels open causing depolarisation.
Outline the sliding filament theory
Myosin head with ADP attached forms a cross bridge with actin
Power stroke - myosin head changes shape and loses ADP, pulling actin over myosin
ATP attaches to myosin head, causing it to detach from actin
ATP hydrolase so myosin head can return to original position
Myosin head re-attaches to actin further along the filament
How does the sliding filament action cause a myofibril to shorten?
Myosin heads cause actin filaments to be pulled towards each other.
Distance between adjacent z lines shortens
Repeated up to 100 times per second to shorten the myofibril
What happens during muscle relaxation?
Calcium ions actively transported back into the endoplasmic reticulum
Troponin changes shape
Causes tropomyosin to move and block actin binding sites.
Explain the role of phosphocreatine in muscle contraction
Phosphorylates ADP directly to ATP when oxygen is in short supply due to vigorous exercise.
Where are slow and fast twitch muscle fibres found in the body?
Slow twitch - sites of sustained contraction
Fast twitch - site of short term, rapid, powerful contractions
Explain the role of slow and fast twitch muscle fibres
Slow twitch - long duration contraction, adapted to aerobic conditions to prevent lactate build-up
Fat twitch - powerful short term contraction, adapted for anaerobic respiration
Explain the structure and properties of slow twitch muscles
Glycogen store - hydrolysed to release glucose for respiration
Contain myoglobin - higher affinity for oxygen at lower partial pressure
Many mitochondria - aerobic respiration needed to supply ATP
Surrounded by many blood capillaries to supply oxygen and glucose.
Explain the structure and properties of fast twitch muscles
Large store of phosphocreatine
High concentration of enzymes for anaerobic respiration
Extensive endoplasmic reticulum to allow rapid uptake and release of calcium ions.
