Mechanism of Muscle Contraction

Question 1

Explain the 1st step of excitation-contraction coupling

Answer 1

• acetylcholine (ACh) released from axon terminal of motor neuron & binds to receptors of a motor end plate.
• binding elicits an end-plate potential, triggering an action potential in the muscle cell

Question 2

Explain the 2nd step of excitation-contraction coupling

Answer 2

Action potential propagates along sarcolemma & down T tubules

Question 3

Explain the 3rd step of excitation-contraction coupling

Answer 3

Action potential triggers Ca2+ release from sarcoplasmic reticulum

Question 4

Explain the 4th step of excitation-contraction coupling

Answer 4

Ca2+ binds to troponin
- exposing myosin-binding sites

Question 5

Explain the 5th step of excitation-contraction coupling

Answer 5

Cross-bridge cycle begins (muscle fiber contracts)

Question 6

Explain the 6th step of excitation-contraction coupling

Answer 6

• Ca2+ is actively transported back into lumen of sarcoplasmic reticulum
• following the action potential

Question 7

Explain the 7th step of excitation-contraction coupling

Answer 7

Tropomyosin blocks myosin-binding sites (muscle fiber relaxes)

Question 8

What does the sliding filament theory involve?

Answer 8

• myosin
• actin
• tropomyosin
• troponin
• ATP
• calcium ions

Question 9

What is the 1st step of the Contraction Cycle and Cross-Bridge Formation?

Answer 9

Arrival of Ca2+ within zone of overlap in sarcomere

Question 10

What is the 2nd step of the Contraction Cycle and Cross-Bridge Formation?

Answer 10

• Ca2+ binds to troponin
• weakening bond between actin and troponin-tropomyosin complex

Question 11

What happens to the troponin molecule in step 2 of the Contraction Cycle?

Answer 11

Changes position:
- rolls tropomyosin molecule away from active sites on actin
- allows interaction with the energised myosin heads

Question 12

What is the 3rd step of the Contraction Cycle and Cross-Bridge Formation?

Answer 12

• active sites exposed
• energised myosin heads bind to them
• forming cross-bridges

Question 13

What is the 4th step of the Contraction Cycle and Cross-Bridge Formation?

Answer 13

The power stroke action occurs after formation of bridge:
- energy stored in resting state is released
- as the myosin head pivots toward the M line
- bound ADP & phosphate group are released

Question 14

What is the 5th step of the Contraction Cycle and Cross-Bridge Formation?

Answer 14

When ATP binds to myosin head:
- link between myosin head and active site (on actin molecule) is broken
- active site = exposed
- able to form another cross-bridge

Question 15

What is the 6th step of the Contraction Cycle and Cross-Bridge Formation?

Answer 15

Myosin reactivation occurs when:
- free myosin head splits ATP into ADP and phosphate
- energy released used to recock myosin head

Question 16

Summarise the Single Cross-Bridge Cycle in 6 steps

Answer 16

1. Exposure of binding sites on actin
2. Binding of myosin to actin
3. Power stroke of cross-bridge
4. disconnecting the myosin head from actin
5. Re-energising & repositioning myosin head
6. Removal of Ca ions

Question 17

What happens to the length of the sarcomere during the contraction of a skeletal muscle fibre?

Answer 17

Contracts/shortens:
- A band = stays same width
- Z lines = move closer together
- I bands = get smaller
- H zone = changes
- myofilament = no change

Question 18

Because the sarcomere units shorten …

Answer 18

the length of the muscle fiber shortens (contracts)

Question 19

When one end of a myofibril is fixed in position …

Answer 19

the free end is pulled toward the fixed end

Question 20

What is the role of ATP in the contraction of the skeletal muscle?

Answer 20

• energising the power stroke of the myosin cross-bridges
• disconnecting myosin head from binding site on actin at the end of a power stroke
• actively transports Ca ions into sarcoplasmic reticulum

Question 21

What is the role of ATP in the contraction of the skeletal muscle?

Answer 21

• energising the power stroke of the myosin cross-bridges
• disconnecting myosin head from binding site on actin at the end of a power stroke
• actively transports Ca ions into sarcoplasmic reticulum

Question 22

What is the 1st step of muscle relaxation?

Answer 22

ACh removed from receptors by AChE

Question 23

What is the 2nd step of muscle relaxation?

Answer 23

ligand-gated Na+ channels close

Question 24

What is the 3rd step of muscle relaxation?

Answer 24

Na/K pumps reestablish the RMP

Question 25

What is the 4th step of muscle relaxation?

Answer 25

Ca2+ leave troponin & absorbed back into cisternae

Question 26

What is the 5th step of muscle relaxation?

Answer 26

tropomyosin moves back over the actin active site

Question 27

What is the 6th step of muscle relaxation?

Answer 27

myosin heads release their binding to actin

Question 28

What 3 forces are needed for muscle relaxation?

Answer 28

• elastic forces
• opposing muscle contractions
• gravity