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The Muscular System 1
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Muscles are responsible for all types of body movement
Three basic muscle types are found in the body
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Characteristics of Muscles
Muscle cells are elongated (all muscle cells are called muscle fibers) All muscles share some terminology Prefix myo refers to muscle Prefix mys refers to muscle Prefix sarco refers to flesh
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Skeletal Muscle Characteristics
Cells are multinucleate Striated – have visible banding Cells are surrounded and bundled by connective tissue
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Connective Tissue Wrappings of Skeletal Muscle
Endomysium – around single muscle fiber Perimysium – around a fascicle (bundle) of fibers Fascia – on the outside of the epimysium
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Skeletal Muscle Attachments
Epimysium blends into a connective tissue attachment Tendon – cord-like structure Aponeuroses – sheet-like structure Sites of muscle attachment
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Smooth Muscle Characteristics
Has no striations Spindle-shaped cells Found mainly in the walls of hollow organs
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Cardiac Muscle Characteristics
Has striations Usually has a single nucleus Joined to another muscle cell at an intercalated disc
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Function of Muscles
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Microscopic Anatomy of Skeletal Muscle
Sarcoplasmic reticulum – specialized smooth endoplasmic reticulum Figure 6.3a
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Myofibril Microscopic Anatomy of Skeletal Muscle
Bundles of myofilaments Myofibrils are aligned to give distrinct bands Figure 6.3b
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Microscopic Anatomy of Skeletal Muscle
Sarcomere
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Microscopic Anatomy of Skeletal Muscle
Organization of the sarcomere Thick filaments = myosin filaments
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Organization of the sarcomere
Microscopic Anatomy of Skeletal Muscle Organization of the sarcomere
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Myosin and actin overlap somewhat
Microscopic Anatomy of Skeletal Muscle Myosin and actin overlap somewhat
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Sarcoplasmic reticulum (SR) – for storage of calcium
Microscopic Anatomy of Skeletal Muscle Sarcoplasmic reticulum (SR) – for storage of calcium Figure 6.3d
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Nerve Stimulus to Muscles
Skeletal muscles must be stimulated by a nerve to contract Motor unit
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Motor units Definition: A motor neuron and all the muscle fibers it contacts Motor neuron activation causes contraction of all associated muscle fibers
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Nerve Stimulus to Muscles
Neuromuscular junctions
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Nerve Stimulus to Muscles
Synaptic cleft – Nerve and muscle do not make contact Area between nerve and muscle is filled with interstitial fluid Figure 6.5b
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Transmission of Nerve Impulse to Muscle
Neurotransmitter – chemical released by nerve upon arrival of nerve impulse The neurotransmitter for skeletal muscle is acetylcholine Neurotransmitter attaches to receptors on the sarcolemma Sarcolemma becomes permeable to sodium (Na+)
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Transmission of Nerve Impulse to Muscle
Sodium rushing into the cell generates an action potential
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Myosin heads then bind to the next site of the thin filament
The Sliding Filament Theory of Muscle Contraction Activation by nerve causes myosin heads (crossbridges) to attach to binding sites on the thin filament Myosin heads then bind to the next site of the thin filament
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This continued action causes a sliding of the myosin along the actin
The Sliding Filament Theory of Muscle Contraction This continued action causes a sliding of the myosin along the actin Figure 6.7 Slide 6.17b Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
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The Sliding Filament Theory
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Contraction of a Skeletal Muscle
Muscle fiber contraction is “all or none” Within a skeletal muscle, not all fibers may be stimulated during the same interval Different combinations of muscle fiber contractions may give differing responses Graded responses – different degrees of skeletal muscle shortening
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Muscle Response to Strong Stimuli
More fibers contracting results in greater muscle tension Muscles can continue to contract unless they run out of energy
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