Table of contents

1. Introduction to Anatomy & Physiology5h 43m
2. Cell Chemistry & Cell Components12h 36m
3. Energy & Cell Processes10h 6m
4. Tissues & Histology10h 3m
5. Integumentary System2h 20m
6. Bones & Skeletal Tissue2h 16m
7. The Skeletal System2h 35m
8. Joints2h 17m
9. Muscle Tissue2h 33m
10. Muscles1h 11m
11. Nervous Tissue and Nervous System1h 35m
12. The Central Nervous System1h 6m
- Introduction to the Central Nervous System
  18m
- The Cerebrum
  48m
13. The Peripheral Nervous System1h 26m
14. The Autonomic Nervous System1h 38m
15. The Special Senses2h 41m
16. The Endocrine System2h 48m
17. The Blood3h 22m
18. The Heart3h 42m
19. The Blood Vessels3h 35m
20. The Lymphatic System3h 16m
21. The Immune System14h 37m
22. The Respiratory System3h 20m
23. The Digestive System2h 5m
24. Metabolism and Nutrition4h 0m
25. The Urinary System2h 39m
26. Fluid and Electrolyte Balance, Acid Base Balance37m
27. The Reproductive System2h 5m
28. Human Development1h 21m
29. Heredity3h 32m

9. Muscle Tissue

Sliding Filament Theory and the Sacromere

Anatomy & Physiology

9. Muscle Tissue

Sliding Filament Theory and the Sacromere

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Multiple Choice

What is the sliding filament model of muscle contraction?

It details the process of ATP synthesis in muscle cells.

It outlines the role of troponin in muscle relaxation.

It describes how actin and myosin filaments slide past each other to shorten the sarcomere.

It explains how calcium ions are stored in the sarcoplasmic reticulum.

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Verified step by step guidance

Begin by understanding the structure of a sarcomere, the basic unit of a muscle fiber, which is composed of actin (thin filaments) and myosin (thick filaments).

Learn about the role of myosin heads, which bind to specific sites on the actin filaments, forming cross-bridges necessary for muscle contraction.

Explore how ATP is crucial for muscle contraction, as it provides the energy for myosin heads to pivot and pull actin filaments towards the center of the sarcomere, shortening the muscle.

Understand the role of calcium ions, which are released from the sarcoplasmic reticulum and bind to troponin, causing a conformational change that moves tropomyosin away from actin's binding sites, allowing myosin to attach.

Recognize that the sliding filament model describes the process where actin and myosin filaments slide past each other, resulting in the shortening of the sarcomere and muscle contraction.