Skeletal Muscle L12

Question 1

what are the connective tissue components of skeletal muscles:
surrounded by: __________ _________
____________ subdivides the muscle into fascicles
each fascicle is subdivided into muscle fibres(myofibers) surrounded by _______

Answer 1

• fibrous epimysium
• perimysium
  -endomysium

Question 2

when muscles contract, do tendons absorb some of the tension?

Answer 2

YES!

Question 3

what parts of the muscle and tendons must be pulled tight when muscles contract?

Answer 3

the non contractile parts:
Ligaments, joint capsules, and fascia are noncontractile components of muscle composed of collagen and elastin fibres.

Question 4

muscle fibres have plasma membranes called:

Answer 4

sarcolemma

Question 5

muscles fibres are _____________ and form a ________

Answer 5

multinucleated
syncytium: a single cell or cytoplasmic mass containing several nuclei, formed by fusion of cells or by division of nuclei.

Question 6

muscle fibres are striated:
1. I band
2. A band
3. Z lines

Answer 6

1. I bands: light bands
2. A bands: dArk bands
3. Z-lines(discs): dark lines in the middle of the I bands

Question 7

each muscle fibre has densely packed units called _______ that run along length
they are composed of ______ and _________ myofilaments
stacked so ________ and _________ bands align

Answer 7

myofibrils
thick and thin
dark and light

Question 8

striations are produced by:

Answer 8

thick and thin filaments

Question 9

In striations, I bands contain ONLY ______________ filaments, primarily of the protein ______

Answer 9

thin
actin

Question 10

in striations, A bands contain ALL ___________ filament with SOME _________ filament overlap.
the thick filament is the protein ________

Answer 10

thick
myosin

Question 11

in striations, H bands are the _________ of the A band with No ________ filament overlap

Answer 11

center
thin

Question 12

in striations, Z discs(lines) are found in the ___________ of each _______ band

Answer 12

center
I band

Question 13

the functional unit of muscle

Answer 13

sarcomere

Question 14

the sarcomere is 1 ____________ to the next

Answer 14

z-disc

Question 14

the sarcomere is 1 ____________ to the next

Answer 14

z-disc

Question 15

titin:
runs from __________ to ______________
allows___________

Answer 15

largest protein in body
protein that runs from Z disc to M line and allows elastic recoil

Question 16

what protein in sarcomere allows elastic recoil?

Answer 16

titin

Question 17

what is found in the center of each A band and helps hold down thick filaments

Answer 17

M lines

Question 18

Sliding filament theory:
when a muscle contracts, sarcomeres _________

Answer 18

SHORTEN

Question 19

in sliding filament theory when a muscle contracts:

what happens to A bands?

Answer 19

DO NOT shorten, but move closer together

Question 20

in sliding filament theory when a muscle contracts:
I bands:

Answer 20

SHORTEN, but thin filaments DO NOT ( thin filaments slide toward H bond)

Question 21

in sliding filament theory when a muscle contracts:
H band:

Answer 21

shortens or disappears
thin filaments slide toward H bond

Question 22

what are the 3 subunits of troponin? (ICT)

Answer 22

I: inihibory part blocks myosin head binding to actin
C: binds to calcium linking it to the nerve (calcium released from sarcoplasmic reticulum)
T: binds to tropomyosin

Question 23

thick filaments(myosin)

Answer 23

Each protein has two globular heads with
actin-binding sites and ATP-binding sites

Question 24

thin filaments(actin)

Answer 24

Have proteins called tropomyosin and
troponin that prevent myosin binding at rest

Question 25

action of sliding in sliding filament theory

Answer 25

Sliding is produced by several cross bridges that form between myosin and actin.
a) The myosin head serves as a myosin ATPase enzyme, splitting ATP into ADP + Pi.
b) This allows the head to bind to actin when the muscle is stimulated.

Question 26

Release of Pi upon binding cocks the myosin head, producing a__________ _________ that pulls the thin filament toward the center

Answer 26

power stroke

Question 27

After the power stroke, _______ is released and a new ATP binds.

Answer 27

ADP
-This makes myosin release actin.
-ATP is split.
The myosin head straightens out and rebinds to actin farther back.
Continues until the sarcomere has shortened

Question 28

what does Regulation of Contraction

Answer 28

F-actin(fibrous actin) is made of 300-400 G-actin subunits,
arranged in a double row and twisted to form
a helix

Question 29

F-actin(fibrous actin) is made of 300-400 G-actin subunits,
arranged in a double row and twisted to form
a helix

Answer 29

cross bridges

Question 30

Troponin complex

1. Troponin I inhibits binding of
2. Troponin T binds to
3. Troponin C binds to

Answer 30

1. Troponin I inhibits binding of myosin.
2. Troponin T binds to tropomyosin.
3. Troponin C binds to calcium.

Question 31

When muscle cells are stimulated, Ca2+ is released where??
some attaches to Troponin C, causing a _________
Myosin is allowed access to form cross bridges with______

Answer 31

inside the muscle fiber.
conformational change in troponin and tropomyosin.
ACTIN

Question 32

sarcoplasmic reticulum is a modified Er that stores Ca when
most SR is stored in: _______

Answer 32

-muscle is at rest
-terminal cisternae

Question 33

When a muscle fiber is stimulated, Ca2+ diffuses out of

Answer 33

calcium release channels
(ryanodine receptors).

Question 34

At the end of a contraction,
Ca2+ is actively pumped back
into the

Answer 34

SR

Question 35

role of SR

Answer 35

role of SR

Question 36

transverse tubules are:
NT:
open to the :
able to conduct:
closely situated next to:

Answer 36

-Narrow membranous tunnels formed from the sarcolemma
-acetylcholine
-extracellular environment
-action potentials
-terminal cisternae

Question 37

to stimulate a muscle fiber:
_____________ is released from motor neuron
conducted along__________
calcium is released)SR) and can bind to:

Answer 37

acetylcholine
-the sarcolemma(Na)
-troponin C

Question 38

can get graded muscle contraction but not fiber..HOW?

Answer 38

recruitment
more motor units

Question 39

Axon terminal of motor neuron forms neuromuscular junction with _______

Answer 39

a single muscle fibre

Question 40

Signals are passed between nerve terminal and muscle fiber by means of neurotransmitter ___________
Released ACh binds to receptor sites on motor end plate of _________________
Binding triggers ____________ of specific channels in motor end plate
Ion movements _________ motor end plate, producing end-plate potential

Answer 40

-Acetylcholine
-muscle cell membrane
-opening
-depolarize

Question 41

in muscle relaxation:
Action potentials ________
Calcium release channels ___________
Ca2+-ATPase pumps move Ca2+ ___________________________
No more Ca2+ is available to bind to
Tropomyosin moves to block the myosin heads from

Answer 41

-cease
-close
-back into SR (active transport).
-troponin C
-binding to actin

Question 42

ACH Agonists: drugs that can stimulate a receptor: (2)

Answer 42

1. nicotine
2. muscarine

Question 43

ACH antagonists: drugs that inhibit a receptor

Answer 43

1. curare
2. atrophine

Question 44

1. curare
2. atrophine

Answer 44

1 motor neuron
all the muscle fibres it innervates

Question 45

1 motor neuron
all the muscle fibres it innervates

Answer 45

NO

Question 46

1 motor neuron
all the muscle fibres it innervates

Answer 46

site where a motor
neuron stimulates a muscle fiber

Question 47

site where a motor
neuron stimulates a muscle fiber

Answer 47

area of the muscle fiber
sarcolemma where a motor neuron stimulates it
using the neurotransmitter, acetylcholine

Question 48

TYPE I Muscle fibres are:
slow twitch fibers

Answer 48

slow oxidative
contract relatively slowly and use aerobic respiration (oxygen and glucose) to produce ATP. They produce low power contractions over long periods and are slow to fatigue.
slower contraction speed; can sustain contraction for long periods without fatigue; rich capillary supply; more mitochondria; more respiratory enzymes; more myoglobin
a. Tend to have high oxidative capacity, so are
called (slow) oxidative fibers
b. Due to high myoglobin content (which has a
red pigment), these are also called red fibers
c. Found in postural muscles

Question 49

Type IIA fibers
fast oxidative

Answer 49

fast twitch, have high oxidative and glycolytic capacity, and are relatively resistant to fatigue
fast-twitch but with high oxidative capacity; called fast oxidative fibers

Question 50

Type IIB fibers (IIX)
fast-glycolytic (myosin heavy chain, ATPase)

Answer 50

fast twitch, have low oxidative and high glycolytic capacity, and fatigue rapidly
faster contraction speed, fatigue fast, fewer capillaries, mitochondria, respiratory enzymes, and less myoglobin
a. Also called white fibers
b. Have more glycogen stores and are called
fast glycolytic fibers
c. Found in stronger muscles

Question 51

endurance running recruits:

Answer 51

type I and IIa

Question 52

at rest utilizes:

Answer 52

at rest utilizes:

Question 53

each muscle fibre is activated thru impulses delivered via

Answer 53

motor end plate

Question 54

motor end plate

Answer 54

when a muscle quickly contracts and relaxes after a single electrical shock of sufficient voltage (AP).
-Increasing the voltage increases the strength of the twitch up to a maximum.
-When a second shock is applied immediately after the first, a second twitch will partially piggyback the first. This is called summation

Question 55

summation:

Answer 55

two successive action potentials (AP), if the twitch tension resulting from the
first AP does not decline to zero before asecond twitch arrives, the twitch forces summate.

Question 56

tetanus:

Answer 56

frequency of APs(action potentials)-a rise in the contractile force of a single
muscle (fibre) until force reaches a plateau called the tetanic tension. This is the maximum tension that can be produced by a fibre.

if a muscle fibre is stimulated so rapidly that it doesnt have an opportunity to relax at all between stimuli, a maximal sistained contraction known as tetanus occurs

a. Increasing the frequency of electrical shocks decreases the relaxation time between twitches. This is called incomplete tetanus.
b. At a certain frequency, there will be no relaxation. This is called complete tetanus, a smooth, sustained contraction.

Question 57

Latent period

Answer 57

time between the stimulus and the contraction (excitation-contraction
coupling to the attachment of myosin cross bridges to actin)