SM 1

Question 1

Sarcomeres Shorten During Contraction
• Zone of Overlap —
• I-Band —
• H-Zone —

Answer 1

Increases
Decreases
Decreases

Question 2

The thin filament

Answer 2

is composed of 
actin (with G-actin molecules, the 
active site which binds myosin), 
tropomyosin, and troponin 
(which binds actin, tropomyosin, 
and calcium).

Question 3

The myosin (thick) filament

Answer 3

has 
multiple cross-bridges where the 
“heads” can bind to the G-actin 
molecule.  
Myosin also functions as an 
ATPase enzyme.

Question 4

Dystrophin Protein connects thin filaments to

Answer 4

glycoproteins in sarcolemma

Question 5

Dystrophin-Glycoprotein Complex provides

Answer 5

scaffolding

for sarcomeres

Question 6

Muscular Dystrophies (5)

Answer 6

a. Duchenne
b. Beckers
c. Myotonic
d. Oculopharyngeal
e. Limb Girdle

Question 7

The alpha motor neuron
releases – which binds to
a

Answer 7

ACh
nicotinic ACh receptor (NM)
on the muscle fiber

Question 8

Botulinum toxin A inhibits the

release of

Answer 8

ACH at the 
neuromuscular junction. 
Botox can be used in 
dentistry (Bruxism, 
Sialorrhea, Masseteric 
Hypertrophy, etc.

Question 9

For contraction to occur, the intracellular calcium

in the muscle fiber must —

Answer 9

increase

Question 10

in resting muscle,
tropomyosin prevents a
strong bond between the

Answer 10

myosin head and G-actin

molecules

Question 11

When troponin binds to 
cytosolic Ca++, 
tropomyosin is pulled 
away from the myosin 
binding site, and allows 
for the

Answer 11

power stroke

Question 12

Sarcoplasmic Reticulum (SR):

Answer 12

modified ER that sequesters Ca2+

Question 13

Transverse (T)-Tubules:

Answer 13

invaginations of sarcolemma

Question 14

Terminal Cisternae:

Answer 14

Portion of SR that contact T-tubules

Question 15

Calcium is released from the Sarcoplasmic Reticulum (2)

Answer 15

a.The AP travels down the membrane, down T-tubules, & activates
voltage-sensitive dihydropyridine (DHP) receptors on the T-
tubules. These in turn open calcium channels (ryanodine
receptors) on the SR. Calcium goes from SR to the sarcoplasm.
b.The intracellular structure of myocytes ensures spread of action
potential (and calcium) throughout the cell

Question 16

ATP is Necessary for Contraction (3)

Answer 16

1. ATP binding to the myosin head breaks the cross-bridge
   (connection between actin and myosin).
2. Energy released from ATP hydrolysis by the myosin head
   provides energy for cocking the myosin head (myosin is
   now in the high energy form).
3. Release of inorganic phosphate from the myosin head
   provides energy for the POWER STROKE (myosin head
   pulling actin towards the center of the sarcomere). This
   shortens the sarcomere.

Question 17

Muscle cells only have enough ATP for ~– twitches.

Answer 17

8

Question 18

Both (2) produce ATP for muscle

fibers.

Answer 18

Aerobic and Anaerobic Metabolism

Question 19

However, the contribution of each in a specific muscle fiber depends on (2)

Answer 19

(1) the metabolic enzymes are present in the cell (ex. glycolytic
fibers versus oxidative fibers)
(2) the intensity of the exercise.

Question 20

Sources of ATP (3)

Answer 20

aerobic/anaerobic metabolism

phosphocreatine

Question 21

Measurement of Creatine
Kinase (CK) levels in the
blood is done to determine if

Answer 21

damage to muscle tissue 
(skeletal and cardiac) has 
occurred (ex. heart attack or 
muscular dystrophy). 
Different isoforms of CK are 
found in skeletal versus 
cardiac muscle.

Question 22

Fatigued muscles: (3)

Answer 22

1.have decreased tension generation,
2.take longer to contract
3.relax more slowly and may not completely
relax.

Question 23

SKIPPED

Theories for fatigue: (6)

Answer 23

1. Change in membrane potential
2. Decreased ACH
3. Blockage of blood flow
4. Central Fatigue
5. Increased metabolic byproducts
6. Depleted glycogen

Question 24

Both (2) must be present for cross-bridge

cycling.

Answer 24

Calcium and ATP

Question 25

SKIPPED

Cross-Bridge Cycling (Sliding Filament Theory) (5)

Answer 25

A. Rigor State: myosin and actin are tightly bound
B. ATP binds myosin, decreases its affinity for
actin, and the two separate
C. Myosin head moves in the direction of the Z line,
ATP is hydrolyzed
D. Myosin binds the next actin (one closer to Z line)
and power stroke occurs (pulls actin toward the
M Line)
E. ADP is released and the actin and myosin
resume the brief rigor state

Question 26

Relaxation of Skeletal Muscle (2)

Answer 26

• The alpha motor neuron must stop firing

* Cytosolic (intracellular) calcium concentrations must decrease

Question 27

Cytosolic (intracellular) calcium concentrations must decrease (3)

Answer 27

A. Calcium ATPases on SR remove calcium from
cytosol
B. Tropomyosin moves, and covers actin’s myosin-
binding site
C. Actin slowly slides back to its original resting place
and the sarcomere returns to its original length.

Question 28

For relaxation to occur, — must be removed,
but — must be present to release myosin from
actin. Otherwise, rigor state is maintained.
Rigor Mortis?

Answer 28

Calcium

ATP

Question 29

Diversity of Skeletal Muscle Fibers

3 Types

Answer 29

Slow-Twitch: Type I
Fast-Twitch:
Oxidative-Glycolytic: Type IIA
Glycolytic: Type IIB

Question 30

Changes in Size (3)

Answer 30

1. Hypertrophy
2. Atrophy
3. Sarcopenia

Question 31

The thickness of the jaw muscles decreases

significantly with

Answer 31

age, which is caused primarily by a
decrease in the cross-sectional area of their
fibers. These
changes might be explained by the
progressive reduction in the number and the
total duration of activity bursts per day with
age.

Question 32

Certain Characteristics of Skeletal Muscle Fibers

Can Change in Response to Use (2)

Answer 32

changes in size

changes in fiber types

Question 33

Human jaw muscles are different from
other skeletal muscle. Human jaw
closing muscles are composed of a
relatively homogenous mixture of

Answer 33

type I
and II fibers, the type II fibers being
much smaller than the type I

Question 34

The fibre-type composition of the 
jaw muscles also changes with age. 
In the jaw-closing muscles of 
elderly subjects, the proportion of 
pure type -- fibres decreases, while 
the proportion of pure type -- fibres 
and that of hybrid fibres increase

Answer 34

I

II

Question 35

Motor Units:

Answer 35

a motor unit is the alpha motor neuron

and the muscle fibers it innervates

Question 36

Motor units are recruited in order of size (2)

Answer 36

a. Small motor units are
recruited first
b. Smallest motor units
control fewer fibers

Question 37

An increase in the number 
of motor units activated 
increases the total tension 
produced by contraction of 
a muscle—

Answer 37

SPATIAL

SUMMATION

Question 38

— Recruitment

Answer 38

Asynchronous

Question 39

Small motor units (X) are composed of

Answer 39

slow-twitch
oxidative fibers. They have the lowest threshold for
firing and are recruited first.

Question 40

Larger motor units (Z) are composed of

Answer 40

fast-twitch
glycolytic fibers. They have the highest threshold
and are recruited last

Question 41

Motor units in jaw muscles are
restricted to specific areas of the
jaw muscles, which permits

Answer 41

differential control of separate

muscle portions.

Question 42

Types of Contraction: the amount of (2) determines the type of
contraction

Answer 42

load and the

force the muscle generates

Question 43

ISOMETRIC CONTRACTION.

Answer 43

Force produced is

less than the load; no movement.

Question 44

ISOTONIC CONTRACTION.

Answer 44

Force produced is

great enough to move a load

Question 45

The force of 
contraction 
increases until 
the isometric 
contraction 
becomes an

Answer 45

isotonic
contraction—
NOT always
possible!

Question 46

The contraction with 
the -- gram load is 
isometric because the 
muscle is not strong 
enough to move the 
load and shorten. The 
maximum isometric 
contraction only 
produces -- grams of 
tension.

Answer 46

20

17

Question 47

ncrease total force by (2)

Answer 47

(1) increasing the frequency of fiber activation
and/or
(2) increasing the number of muscle fibers contracting (motor
unit recruitment).

Question 48

An increase in the frequency of α motor neuron

stimulation will increase the amount of

Answer 48

tension produced.
The tension produced in response
to each action potential will sum if the muscle
has not yet completely relaxed.

Question 49

For a single muscle twitch (one muscle fiber), the

tension developed is altered by

Answer 49

sarcomere length

Question 50

Optimal length is where there is the best degree of overlap

between the

Answer 50

thick and thin filaments.

Question 51

At the optimal length 
the greatest number of 
actin/myosin cross-
bridges can form, 
which results to

Answer 51

maximal tension

production.

Question 52

Tension is reduced if 
the muscle (2)

Answer 52

is not
stretched enough or if it
stretched too much.

Question 53

The velocity of contraction (distance moved/time)

depends on the

Answer 53

load a fiber is contracting against.

Question 54

The greater the load, the
– the speed of
contraction.

Answer 54

SLOWER

Question 55

Load isn’t the only factor that dictates the speed of contraction. — dictates it, too. For example,

Answer 55

Fiber Type

Type I fibers have an isoform of myosin with
slower ATPase activity while type II fibers have fast myosin ATPase.

Question 56

Skeletal Muscle Reflexes (2)

Answer 56

A. Stretch Reflex (Muscle Receptors)
B. Golgi Tendon Reflex (Tendon
Receptors)

Question 57

Extrafusal Fibers

Answer 57

Skeletal muscle fibers/cells that produce the

contraction.

Question 58

Alpha Motor Neuron:

Answer 58

Efferent neuron that
releases ACh and causes contraction of
the extrafusal fiber (skeletal muscle).

Question 59

Muscle Spindle

Answer 59

Small structure within the extrafusal fibers that
contains Intrafusal Fibers that have sensory
nerve endings wrapped around them that are
sensitive to CHANGES IN MUSCLE LENGTH.

Question 60

Gamma Motor Neuron:

Answer 60

Efferent neuron
that causes contraction of intrafusal
fibers so they mimic what the EF fibers
are doing.

Question 61

Jaw --- have 
a lot of muscle 
spindles. 
Jaw --- have 
few to none.

Answer 61

closers

openers

Question 62

Components of the Muscle Spindle:

sensitive to

Answer 62

muscle length

Question 63

SKIPPED

The Stimulus for the Muscle Spindle Reflex is Stretch

Answer 63

1. When the muscle stretches, the sensory fibers of the muscle
   spindle are squeezed.
2. Afferent information enters the spinal cord and
   a. Activates the alpha motor neuron.
   i. This stimulates muscle (extrafusal fiber) contraction.
   ii. There is also simultaneous inhibition of the alpha motor
   neuron of antagonistic muscles.
   b. Also activates the gamma motor neuron.
   i. This stimulates intrafusal fiber contraction.
   ii. If the intrafusal fibers did not contract, the sensory fibers
   would not be able to sense a further change in muscle
   length since they would be slack.

Question 64

The Effect of Muscle Spindle Activation is

Answer 64

Contraction.
The reflex has dynamic (immediate) and static (maintains
tone—constant contraction) reflex components

Question 65

Anytime the alpha motor neuron is activated, the – motor

neuron is also activated.

Answer 65

gamma

Question 66

Anytime the alpha motor neuron is activated, the gamma motor 
neuron is also activated.
This allows the 
muscle spindle to 
maintain

Answer 66

sensitivity
to changes in
muscle length.

Question 67

if the intrafusal fibers did not contract, the sensory fibers would not
be able to sense a further change in

Answer 67

muscle length since they

would be slack.

Question 68

Golgi Tendon Organs:

Answer 68

Mechanosensitive receptors 
found at the junction of 
tendons and muscle.  
Sensitive to a change in 
FORCE.

Question 69

The Golgi Tendon
Organ Reflex is a
— reflex.

Answer 69

protective

Question 70

SKIPPED
The Stimulus for the Golgi Tendon Organ
(GTO) Reflex is Tendon Stretch (2)

Answer 70

1. Tendons stretch in response to 
contraction (particularly isometric
—maximal—contractions)
2. Extreme stretch of the tendon will 
squeeze the GTO and afferent 
neurons will send information into 
the spinal cord
a. Stimulates an inhibitory 
interneuron.  
b. This neuron decreases the 
activity of the alpha motor 
neuron
c. Skeletal muscle contraction is 
decreased (relaxation)

Question 71

SKIPPED

control of mastication (4)

Answer 71

• A mix of voluntary, reflex and central (subconscious)
processes.
• Requires coordination of muscles controlling lips, tongue
and cheeks.
• Voluntary control is usually bilateral, although people tend
to favor one side of the mouth over the other.
• Central component; mastication is a cyclical movement
with develops early in life. It is controlled by the Central
Pattern Generator (CPG) of the brainstem, which when
stimulated, elicits rhythmic, coordinated activation and
inactivation of jaw-closers and jaw-openers.

Question 72

The — cannot by itself adjust muscle force to
deal with changing conditions that occur when different foods are
chewed. Reflexes are important modifiers of force.

Answer 72

Central Pattern Generator

Question 73

Input from higher cortical regions can regulate

the CPG frequency via the

Answer 73

Corticobulbar

Pathway

Question 74

Jaw opening reflex (2)

Answer 74

– Pain inhibits the alpha motor neuron of jaw closing muscles such as
when you bite down on your tongue, a metal spoon, with your
incisors
– Jaw opens

Question 75

Jaw jerk reflex (3)

Answer 75

– Strong tap to the chin stretches the 
jaw closers
– The jaw closers respond by 
contraction so the jaw closes
– Stretch reflex

Question 76

SKIPPED
How do you determine the force needed to
take a bite of something hard?

Answer 76

• CPG starts chewing by activating jaw closing muscles
• When the jaw closing muscles connect with the food (ex.
carrot), they initially meet with resistance:
– The force of contraction is initially insufficient to
overcome the load (carrot) – isometric contraction
– Intrafusal fibers in muscle spindle are still contracting and
stretching the muscle spindle so this signals further
contraction of jaw closing muscles
• Constant feedback from the muscle spindle in the jaw
closing muscles is sufficient to overcome the load of the
carrot — isotonic contraction

Question 77

With subsequent chewing strokes, the response is greater and
matches the load of the food with appropriate force more —.

Answer 77

quickly

Question 78

SKIPPED

Protection by Muscle Spindles

Answer 78

• To crack a nut, a tremendous amount of force is required.
Once the nut cracks, there is potential to damage the intra-
oral structures.
• Muscle spindles decrease the contraction in these
situations.
– When the nut cracks, the force is now greater than the
load (nut).
– At this point, there is more slack in the muscle spindle
which leads to less activation of the muscle (due to
decreased alpha/gamma co-activation).

Question 79

Powerful isometric contractions stimulate both jaw closing and
opening muscles. The jaw openers keep the jaw from

Answer 79

snapping shut.