Muscle Structure and Physiology

Question 1

Mature muscle cells have multiple nuclei within a single cytoplasm with many mitochondria
What are they called?

Answer 1

Syncytia

Question 2

Is skeletal muscle smooth or striated?

Answer 2

Striated

Question 3

Which muscle filaments are thin, and aligned and connected to the Z line by nebulin?

Answer 3

Actin

Question 4

Which muscle filaments are thick, and connected to the Z line by Titin?

Answer 4

Myosin

Question 5

Actin is a thin filament in striated muscle
What aligns and connects it to the Z line?

Answer 5

Nebulin

Question 6

Myosin is a thick filament in striated muscle
What connects it to the Z line?

Answer 6

Titin

Question 7

Muscles consist of fibers:
Extrafusal fivers are responsible for ___ and have ___ neurons

Answer 7

responsible for movement (contraction) and have motor neurons

Question 8

Muscles consist of fibers:
Intrafusal fibers have ___, and ___ neurons

Answer 8

have stretch receptors (muscle spindle organs) and motor and sensory neurons

Question 9

Which muscle fibers are responsible for movement/contraction?

Answer 9

Extrafusal fibers

Question 10

Which muscle fibers are responsible for sensing stretch?

Answer 10

Intrafusal fibers

Question 11

What is the epimysium?

Answer 11

Fascia containing the whole muscle

Question 12

What is the perimysium?

Answer 12

Fascia containing a fascicle of muscle fibers

Question 13

What is endomysium?

Answer 13

Fascia containing myofiber/muscle cell

Question 14

Which muscle fascia is involved in compartment syndrome?

Answer 14

Epimysium

Question 15

Myofilament (actin and myosin) is found within bundles called ___ which make up myofiber

Answer 15

myofibril

Question 16

Myofibers are comprised of ___ and ___ filaments

Answer 16

thick (myosin) and thin (actin) filaments

Question 17

When at rest, the binding site on thin filaments is ___ by the troponin-tropomyosin complex

Answer 17

blocked

Question 18

When at rest, the binding site on thin filaments is blocked by the ___

Answer 18

troponin-tropomyosin complex

Question 19

How are binding sites on actin unblocked?

Answer 19

Calcium binds to troponin to unblock the site

Question 20

What is the function of titin in the myofiber?

Answer 20

Provides elasticity and stabilizes myosin

Question 21

What is the function of nebulin in the myofiber?

Answer 21

Helps align actin

Question 22

Troponin holds ___ in place

Answer 22

tropomyosin

Question 23

How does the muscle fiber react when motor neurons fire and release Ach?

Answer 23

• Acetylcholine release opens Na+ channels
• Na+ travels through T tubules

Question 24

What is a sarcomere?

Answer 24

Functional myofibril unit (z-band to z-band)

Question 25

The T tubule of a muscle is a channel for ___

Answer 25

Na+ (sodium)

Question 26

What is the function of the terminal cisterna of sarcoplasmic reticulum in the muscle?

Answer 26

Ca+ (calcium) storage

Question 27

When the muscle is not contracting, there is active pumping of ___ from the muscle to ___

Answer 27

pumping of Ca+ from muscle to sarcoplasmic reticulum

Question 28

What is the Z-band?

Answer 28

Electron dense band that anchors thin actin filaments (end of sarcomere)

Question 29

What is the I-band?

Answer 29

Zone where actin filaments extend from Z-band to A-band

Question 30

What is the A-band?

Answer 30

Structure composed of myosin filaments. Actin filaments overlap myosin filaments to a variable extent, depending on the degree of muscle contraction. Thin filaments form a hexagonal array around each thick filament.

Question 31

What is the H zone?

Answer 31

Pale region in the midportion of the A band where actin filaments end (only myosin present)

Question 32

What is the M line?

Answer 32

Zone of intermolecular bridging and thickening of myosin filaments at the midline of the A-band, which forms a thin, slightly darker electron-dense bank

Question 33

What is the name of the electron dense band that anchors thin actin filaments?

Answer 33

Z-band

Question 34

What is the name of the zone where actin filaments extend from Z-band to A-band?

Answer 34

I-band

Question 35

What is the name of the structure composed of myosin filaments with varying actin filament overlap?

Answer 35

A-band

Question 36

What is the name of the pale region in the midportion of the A-band where actin filaments end and there is only myosin?

Answer 36

H zone

Question 37

What is the name of the zone of intermolecular bridging and thickening of myosin filaments at the midline of the A-band, forming a thin, slightly darker electron-dense bank?

Answer 37

M line

Question 38

Where in the structure of muscles is there only actin?

Answer 38

I-band

Question 39

Where in the structure of muscle is there only myosin?

Answer 39

H zone

Question 40

When a muscle contracts, is it the I-band or the A-band that shortens?

Answer 40

I-band shortens, A-band is the same

Question 41

At the outer edge of the A-band, the thin filaments form a ___ around each thick filament.

Answer 41

hexagonal array
(each thin filament is equidistant from three thick filaments)

Question 42

Sarcoplasmic reticulum and transverse tubular systems regulate…

Answer 42

calcium distribution and storage

Question 43

Sarcoplasmic reticulum surrounds each ___

Answer 43

myofibril

Question 44

What happens with depolarization of the sarcoplasmic reticulum?

Answer 44

SR passively released Ca2+ ions (via DHP and RyR receptors) into the cell

Question 45

What happens with cessation of neural activity of the sarcoplasmic reticulum?

Answer 45

SR actively transports Ca2+ back into the cisternae

Question 46

How many lower motor neurons innervate a muscle fiber?

Answer 46

A fiber is innervated by a single lower motor neuron ending

Question 47

How many muscle fibers are innervated by a lower motor neuron?

Answer 47

Can include hundreds of myofibers (a motor unit)

Question 48

What is a motor unit?

Answer 48

Multiple muscle fibers innervated by one motor neuron

Question 49

What characteristic of a lower motor neuron influences muscle fiber type?

Answer 49

Conduction speed

Question 50

All muscle fibers in a motor unit are the same fiber type
What are the two fiber types?

Answer 50

• Type I (slow twitch, red, dark meat)
• Type II (fast twitch, white, white meat)

Question 51

In humans, all muscles consist of which fiber types?

Answer 51

All muscles consist of a mix of Type I (slow) and Type II (fast)

Question 52

Fill in the following for type I fiber:

Contraction speed:
Color:
Motor neuron:
Metabolism:
Endurance:

Answer 52

Contraction speed: slow (postural**
Color: red
Motor neuron: alpha 2 (lower threshold, slower conduction velocity)
Metabolism: aerobic (higher myoglobin, mitochondria)
Endurance: high

Question 53

Fill in the following for type II fiber:

Contraction speed:
Color:
Motor neuron:
Metabolism:
Endurance:

Answer 53

Contraction speed: fast
Color: white
Motor neuron: alpha 1 (higher threshold, faster conduction velocity)
Metabolism: anaerobic (less myoglobin)
Endurance: low

Question 54

Why could type I fibers transform into type II fibers and vice versa in the Buller et al. study?

Answer 54

Innervation determines fiber type

Question 55

How do type I muscle fibers (slow twitch/postural) respond to endurance training?

Answer 55

They don’t hypertrophy, number of mitochondria increases

Question 56

How do type II muscle fibers (fast twtich) respond to strength training?

Answer 56

Hypertrophy

Question 57

Which structure is responsible for calcium ion regulation in sarcomeres?

Answer 57

Sarcoplasmic reticulum

Question 58

What is the most important factor in determining muscle fiber type?

Answer 58

Lower motor neuron conduction velocity

Question 59

What is the sliding filament theory?

Answer 59

During muscle contraction, actin filaments slide past myosin filaments in a series of cross-bridge cycles

Question 60

sliding filament theory

Each cross-bridge cycle consists of the following steps:

Answer 60

1. Rest
2. Excitation
3. Contraction
4. Relaxation

Question 61

Which phase of sliding filament theory involves Ca2+ binding to troponin, exposing binding sites for myosin?

Answer 61

Excitation

Question 62

What occurs during the contraction phase of sliding filament theory?

Answer 62

Bound myosin rotates its head, producing a “power stroke”

Question 63

sliding filament theory

What is required for the myosin head to release actin?

Answer 63

ATP binds to myosin head

Question 64

sliding filament theory

What is the result of ATP binding to the myosin head?

Answer 64

• Ca2+ moves back into the sarcolemma
• Troponin-tropomyosin complex moves to block interaction between actin and myosin

Question 65

In which phase of sliding filament theory does the myosin head bind to ATP and detach from actin?

Answer 65

Relaxation phase

Question 66

sliding filament theory

What occurs between the relaxation and rest phases?

Answer 66

• Actin binding sites physically blocked
• ATP is hydrolyzed, adding ADP to myosin head

Question 67

sliding filament theory

What is required for the myosin head to be ready to bind to actin (again)?

Answer 67

ADP must be bound to myosin head (rest phase)

Question 68

sliding filament theory

At which phase does myosin have the highest affinity for actin?

Answer 68

Rest phase

Question 69

sliding filament theory

What allows for calcium to be released before it binds to troponin-tropomyosin complex?

Answer 69

Action potential changes DHP and RyR receptors (allowing calcium release)

Question 70

During which phase of sliding filament theory will myosin heads bind with actin?

Answer 70

Contraction phase

Question 71

sliding filament theory

How long can the contraction phase continue?

Answer 71

As long as action potential is sustained, ATP bind to myosin head and detaches then starts again

Question 72

sliding filament theory

After the relaxation phase, and the action potential ends, where will calcium go?

Answer 72

Sequestered in sarcoplasmic reticulum

Question 73

length-tension curve

Tension produced during contraction is related to which feature of the muscle?

Answer 73

Sarcomere length

Question 74

force velocity curve

Velocity depends on which feature of the muscle?

Answer 74

Number of sarcomeres in a cell and force applied

Question 75

force velocity curve

There is an ___ relationship between force applied and muscle contraction velocity

Answer 75

inverse relationship

Question 76

force velocity curve

As load increases, the contractile system…

Answer 76

yields and lengthening occurs

Question 77

What is tetanus?

Answer 77

The fusion of individual contractions or twitches to form a continuous contraction

Question 78

What is the term for the fusion of individual contractions or twitches to form a continuous contraction?

Answer 78

Tetanus