Muscular System: Cross Bridge Cycling
1. What structure has binding sites for ATP?
- Myosin
2. What is the name of the narrow region in the center of the A band where only thick filaments
are present?
- H zone is the name
3. What structures mark the ends of a sarcomere?
- Z discs mark the ends of a sarcomere.
4. What structures can powerfully pull the thin filament over the thick filament in the sliding
filament mechanism during muscle contraction?
- Myosin cross-bridges
5. The myosin heads have binding sites for what two important components of cross bridge
cycling?
- Actin filaments and the initiation of the sliding filaments
6. What causes the re-positioning of the myosin head to its high-energy conformation?
- The hydrolysis of ATP which results in the re-energization and repositioning of the
Myosin head.
7. What step of the cross bridge cycle is triggered when the inorganic phosphate detaches from
the myosin head?
- The bound ATP linked to the myosin is hydrolyzed to ADP and inorganic phosphate
in the last phase of cross-bridge cycling. The myosin head returns to its energetic,
cocked state.
8. What molecule provides the energy for the cross bridge cycle?
- Adenosine Triphosphate (ATP)
9. In which step of the cross bridge cycle does the myosin head pivot and move the thin
filament?
- ADP and P are released and the myosin head pivots and bends, transforming into a
low energy bent state and as a result it attracts the actin filament to the M line.
10. What ions need to be removed from the sarcoplasm for muscle relaxation to occur?
1. What structure has binding sites for ATP?
- Myosin
2. What is the name of the narrow region in the center of the A band where only thick filaments
are present?
- H zone is the name
3. What structures mark the ends of a sarcomere?
- Z discs mark the ends of a sarcomere.
4. What structures can powerfully pull the thin filament over the thick filament in the sliding
filament mechanism during muscle contraction?
- Myosin cross-bridges
5. The myosin heads have binding sites for what two important components of cross bridge
cycling?
- Actin filaments and the initiation of the sliding filaments
6. What causes the re-positioning of the myosin head to its high-energy conformation?
- The hydrolysis of ATP which results in the re-energization and repositioning of the
Myosin head.
7. What step of the cross bridge cycle is triggered when the inorganic phosphate detaches from
the myosin head?
- The bound ATP linked to the myosin is hydrolyzed to ADP and inorganic phosphate
in the last phase of cross-bridge cycling. The myosin head returns to its energetic,
cocked state.
8. What molecule provides the energy for the cross bridge cycle?
- Adenosine Triphosphate (ATP)
9. In which step of the cross bridge cycle does the myosin head pivot and move the thin
filament?
- ADP and P are released and the myosin head pivots and bends, transforming into a
low energy bent state and as a result it attracts the actin filament to the M line.
10. What ions need to be removed from the sarcoplasm for muscle relaxation to occur?
