1. 7
The Muscular System

2. Five Skeletal Muscle Functions (7-1)
Produce movement of the skeleton
By pulling on tendons that then move bones
Maintain posture and body position
Support soft tissues
With the muscles of the abdominal wall and the pelvic floor
Guard entrances and exits
In the form of sphincters
Maintain body temperature
When contraction occurs, energy is used and converted to heat
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3. Organization of Skeletal Muscle Tissue (7-2)
Skeletal muscles
Are organs that contain:
Connective tissue
Blood vessels
Nerves
Skeletal muscle tissue
Single skeletal muscle cells
Also called skeletal muscle fibers
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4. Three Layers of Connective Tissue (7-2)
Epimysium
Covers the entire muscle
Perimysium
Divides the muscle into bundles called fascicles
Blood vessels and nerves are contained in the perimysium
Endomysium
Covers each muscle fiber and ties fibers together
Contains capillaries and nerve tissue
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5. Tendons (7-2)
Where the ends of all three layers of connective tissue come together
And attach the muscle to a bone
Aponeurosis
A broad sheet of collagen fibers that connects muscles to each other
Similar to tendons, but do not connect to a bone
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6. Blood Vessels and Nerves (7-2)
Extensive network of blood vessels in skeletal muscle
Provides high amounts of nutrients and oxygen
To skeletal muscles which have high metabolic needs
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7. Control of Skeletal Muscle (7-2)
Mostly under voluntary control
Must be stimulated by the central nervous system
Axons
Push through the epimysium
Branch through the perimysium
And enter the endomysium
To control individual muscle fibers
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8. Figure 7-1 The Organization of Skeletal Muscles.
Skeletal Muscle (organ)
Epimysium
Perimysium
Endomysium
Nerve
Muscle
fascicle
Muscle
fibers
Blood
vessels
Muscle Fascicle (bundle of fibers)
Perimysium
Epimysium
Muscle fiber
Blood vessels
and nerves
Endomysium
Tendon
Muscle Fiber (cell)
Endomysium
Capillary
Myofibril
Endomysium
Sarcoplasm
Perimysium
Mitochondrion
Stem cell
Sarcolemma
Nucleus
Axon of neuron
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9. Features of Skeletal Muscle Fibers (7-3)
Are specifically organized to produce contraction and have specific names for general cell structures
Can be very long and are multinucleated
Composed of highly organized structures, giving them a striped or striated appearance
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10. The Sarcolemma and Transverse Tubules (7-3)
Specific name of muscle fiber plasma membrane
Has openings across the surface that lead into a network of transverse tubules, or T tubules
T tubules allow for electrical stimuli to reach deep into each fiber
The sarcoplasm
Specific name for muscle fiber cytoplasm
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11. Myofibrils in Muscle Fiber (7-3)
Hundreds to thousands in each fiber
Are encircled by T tubules and are as long as the entire muscle fiber
Are bundles of thick and thin myofilaments
Actin molecules are found in thin filaments
Myosin molecules are found in thick filaments
Are the contractile proteins that shorten and are responsible for contraction
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12. The Sarcoplasmic Reticulum (7-3)
Or SR
Specialized smooth endoplasmic reticulum
Expanded end that is next to the T tubule is the terminal cisternae
Contain high concentrations of calcium ions
Triad
A combination of two terminal cisternae and one T tubule
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13. Sarcomeres (7-3) Smallest functional unit of skeletal muscle fiber
Formed by repeating myofilament arrangements
Each myofibril has about 10,000 sarcomeres
Thick and thin filament arrangements are what produce the striated appearance of the fiber
Overlapping filaments define lines and bands
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14. Sarcomere Lines (7-3) Z lines M line
Thin filaments at both ends of the sarcomere
Another protein connects the Z lines to the thick filament to maintain alignment
M line
Made of connections between the thick filaments
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15. Sarcomere Bands (7-3) A band I band Contains the thick filaments
Contains the thin filaments, including the Z line
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16. Figure 7-2 The Organization of a Skeletal Muscle Fiber.
Terminal
cisterna
Sarcoplasmic
reticulum
T tubules
Triad
Sarcolemma
Mitochondria
Thick
filament
Thin
filament
Myofilaments
MYOFIBRIL
The structure of a skeletal
muscle fiber.
SARCOMERE
Z line
Zone of overlap
M line
Myofibril
I band
H band
Zone of overlap
A band
The organization of a sarcomere, part of a single myofibril.
Z line
M line
Z line
A stretched out
sarcomere.
Z line
M line
Z line and thin
filaments
Myosin
head
Thick filaments
Active site
Actin molecules
Myosin tail
ACTIN
STRAND
MYOSIN MOLECULE
Hinge
Troponin
Tropomyosin
The structure of a thick filament.
Thin filament
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The structure of a thin filament.

17. Figure 7-2a The Organization of a Skeletal Muscle Fiber.
Terminal
cisterna
Sarcoplasmic
reticulum
T tubules
Triad
Sarcolemma
Mitochondria
Thick
filament
Myofilaments
Thin
filament
MYOFIBRIL
The structure of a skeletal
muscle fiber.
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18. Figure 7-2b The Organization of a Skeletal Muscle Fiber.
SARCOMERE
Zone of overlap
Z line
M line
Myofibril
I band
H band
Zone of overlap
A band
The organization of a sarcomere, part of a single myofibril.
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19. Figure 7-2c The Organization of a Skeletal Muscle Fiber.
Z line
M line
Z line
A stretched out
sarcomere.
M line
Z line
Z line and thin
filaments
Thick filaments
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20. Figure 7-2d The Organization of a Skeletal Muscle Fiber.
Active site
Actin molecules
ACTIN
STRAND
Troponin
Tropomyosin
Thin filament
The structure of a thin filament.
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21. Figure 7-2e The Organization of a Skeletal Muscle Fiber.
Myosin
head
Myosin tail
Hinge
MYOSIN MOLECULE
The structure of a thick filament.
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22. Thin and Thick Filaments (7-3)
Actin
A thin twisted protein, with specific active sites for myosin to bind to
At rest, active sites are covered by strands of tropomyosin, held in position by troponin
Myosin
A thick filament with tail and globular head that attaches to actin active sites during contraction
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