Key Points
Key Points: Types of Movement
- Human body cells show three types of movements: Amoeboid, Ciliary, and Muscular.
- Amoeboid movement - caused by pseudopodia; involves microfilaments; seen in leucocytes and macrophages.
- Ciliary movement - occurs in organs lined by ciliated epithelium; removes dust in the trachea; moves ova in the fallopian tube.
- Muscular movement - due to the contractile property of muscles; seen in jaws, limbs, eyelids, alimentary canal, and ureters.
- Muscular movement is used for locomotion and other movements in humans and most multicellular organisms.
- Locomotion requires coordinated activity of muscular, skeletal, and neural systems.
Key Points: Skeletal Muscle (Voluntary Muscle)
- Skeletal muscle is made up of muscle bundles (fascicles) held together by fascia (collagenous connective tissue). Each bundle contains many muscle fibres.
- Each muscle fibre is lined by sarcolemma, contains sarcoplasm, is a syncytium (many nuclei), and the sarcoplasmic reticulum stores calcium ions.
- Muscle fibres contain myofibrils with alternate light and dark bands due to actin and myosin proteins.
- I-band - light, contains thin actin filaments. A-band - dark, contains thick myosin filaments.
- 'Z' line - bisects each I-band; thin filaments are attached to it. 'M' line - in the middle of the A-band; holds thick filaments together.
- Sarcomere - region between two successive 'Z' lines; functional unit of contraction.
- In the resting state, thin filaments partially overlap thick filaments; the non-overlapped part of the thick filament is the 'H' zone.
Key Points: Structure of Contractile Proteins
- Each thin filament (actin) is made of two 'F' (Filamentous) actins helically wound together. Each 'F' actin is a polymer of monomeric 'G' (Globular) actins.
- Two tropomyosin filaments run alongside 'F' actins. Troponin proteins are distributed at regular intervals on tropomyosin.
- In the resting state, a troponin subunit masks the active binding sites for myosin on actin filaments.
- Each thick filament (myosin) is made of many monomeric proteins called meromyosins. Each meromyosin has a globular head, short arm, and tail.
- Meromyosin is of two types - HMM (Heavy Meromyosin) - the globular head + short arm, and LMM (Light Meromyosin) - the tail.
- The globular head (HMM) projects outward, forming a cross arm. It acts as an active ATPase enzyme and has binding sites for both ATP and actin.
Key Points: Mechanism of Muscle Contraction
- Muscle contraction follows the sliding filament theory, where thin (actin) filaments slide over thick (myosin) filaments.
- Contraction begins with a signal from the CNS through a motor neuron; the neuron and muscle fibres together form a motor unit.
- The neuromuscular junction (motor-end plate) is the point where the motor neuron connects to the muscle fibre.
- Acetylcholine is released, which generates an action potential and causes the release of Ca²⁺ from the sarcoplasmic reticulum.
- Calcium ions activate actin, allowing myosin heads to bind and form cross-bridges.
- Cross bridges pull actin filaments, causing sliding, shortening of the sarcomere, and muscle contraction (I-band shortens, A-band remains the same).
- ATP helps in breaking and reforming cross-bridges; when Ca²⁺ is pumped back, the muscle relaxes.
Key Points: Disorders of Muscular and Skeletal System
- Myasthenia gravis - an autoimmune disorder affecting the neuromuscular junction; causes fatigue, weakness, and paralysis of skeletal muscles.
- Muscular dystrophy - progressive degeneration of skeletal muscles; mainly caused by a genetic disorder.
- Tetany - rapid spasms/wild contractions in muscles due to low Ca²⁺ (calcium) levels in body fluids.
- Arthritis - inflammation of joints causing pain and stiffness.
- Osteoporosis - an age-related disorder; decreased bone mass and increased risk of fractures; caused by a decrease in oestrogen levels.
- Gout - inflammation of joints due to the accumulation of uric acid crystals; causes intense pain and swelling.
Concepts [12]
- Types of Movement
- Different Types of Muscles and Their Functions
- Skeletal Muscle (Voluntary Muscle)
- Structure of Contractile Proteins
- Mechanism of Muscle Contraction
- Types of Skeletal Muscle Contraction
- Skeletal System and Its Function
- The Axial Skeleton
- The Appendicular Skeleton
- Types of Joints
- Disorders of Muscular and Skeletal System
- Benefits of Regular Exercise
