Basic Skeletal Muscle Anatomy & Physiology.pptx

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Basic Skeletal Muscle
Anatomy & Physiology
Fun facts
There are more than 600 muscles in the human body
Biggest muscle: gluteus maximus
Smallest muscles found in the inner ear
Strongest muscle: masseter
The tongue is the only muscle attached at only one
end but not the other
Accounts for roughly 40% of the body weight
Muscles cannot push, they can only pull
Functions of skeletal muscle
system
Works with skeletal system to provide movement
Takes part in the body’s posture and positioning (holds it upright)
Supports soft tissue (where soft tissue – tissue that support/connect/surround
organs)
Guards the body’s entrances and exits (mough, throat, spincters, etc.)
Produces heat for thermoregulartion
Introduction to skeletal muscle
anatomy
Muscles are made of
several layers of
tissue working
together to allow
movement
Levels of organization
Tendons – tissue
that connect
muscle to bone
Levels of organization
Muscle fascicle
– a bundle of
muscle fibers (s.
muscle cells)
-allows
flexibility and
distribution of
force
*look at cross
section –
identify
difference
Levels of organization
Muscle fibers-
individual
skeletal muscle
cells
responsible for
contraction.
Structure:
◦Long, cylindrical
cells
◦Multinucleated
◦Contains
myofibrils made
of actin and
Levels of organization
Myofibril –
organelle inside
muscle fibers
responsible for
contracting
Recap: levels of organization
(Tendon) + Muscles  fascicles 
muscle fiber  myofibril
*Tendons are not part of the muscle cell.
They are a connective tissue that attaches
muscle to bone
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SKELETAL MUSCLE
PHYSIOLOGY – INSIDE THE
MYOFIBRIL
Myofibril  sarcomere
Sarcomeres make
up myofibrils.
◦Basic contractile
units of striated
muscle cells
Anatomy of a Sarcomere
Actin: thin filament
Myosin: thick filament
Z lines: boundary of each
sarcomere
M line: (middle) connects the
myosin
Anatomy of a Sarcomere
-Contraction occurs when
myosin pull actin towards
the M line (middle).
-Z lines get closer together.
*view gif in slideshow mode to
make it make sense.
Sliding Filament Theory inside
the sarcomere)
Muscle contraction occurs as actin
filaments slide past myosin filaments
within the sarcomere.
The Z-lines are pulled closer together,
shortening the sarcomere and contracting
the muscle.
Steps of the sliding filament
theory
1. Myosin head attaches to actin filaments
2. Myosin heads pivot, pulling actin towards center of the sarcomere (M line)
3. ATP (energy molecule) binds to myosin, causing it to detach from actin
4. ATP hydrolyzed (in layman terms, used up), resetting myosin head for next
cycle
*view in slideshow mode to see gif movement. This will help make it make
sense.
Just for fun: This is what happiness really
looks like: Molecules of the protein myosin
drag a ball of endorphins along an active
filament into the inner part of the brain's
parietal cortex, which produces feelings of
happiness.
*EDIT - fact check/fake news: more likely motor protein kinesin,
which is similar to myosin but transports longer distances
Nervous system control of
Muscle Contraction
Brain  spinal cord muscle cell
◦ neurons carry messages from brain to muscles
via spinal cord

Signal travels to muscle cell at the
neuromuscular junction
◦ Release of neurotransmitter Acetylcholine (Ach)
which triggers muscle contraction

Zoom in of Ach
released from the
neuron into muscle
fiber, triggering
contraction.