Test 2

Question 1

What are the three types of proteins in sarcomeres that needed for contraction?

Answer 1

Contractile, structural, and regulatory.

Question 2

What does the contractile protein do?

Answer 2

Actin and myosin - regulates muscle contractions.

Question 3

What do structural proteins do?

Answer 3

Titin, neublin, and desmin- titin and neublin stabilize sarcomere and hold myofibrils together.

Question 4

What do regulatory proteins do?

Answer 4

Troponin and tropomyosin - regulate muscle contractions.

Question 5

What are the two types of muscle fiber types?

Answer 5

Red (oxidative and slow - wild ducks) and white (glycolytic and fast - domesticated chickens).

Question 6

Can fiber types change? If so, why?

Answer 6

Yes, exercise can change the fiber amount and how the muscle moves can too.

Question 7

The muscle metabolism for glycolytic/anaerobic does what?

Answer 7

Produces ATP and lactic acid, does not require oxygen, and has a fast metabolism.

Question 8

The muscle metabolism for oxidative/aerobic does what?

Answer 8

Metabolizes lactic acid to produce ATP (through TCA cycle and electron transport chain) and requires oxygen from the circulatory system.

Question 9

Where is actin located and what does it do?

Answer 9

Located in the thin filament and contains binding site for myosin.

Question 10

Where is myosin located and what does it do?

Answer 10

Primary protein located in the thick filament and binds to actin to cause a contraction.

Question 11

Where is troponin located and what does it do?

Answer 11

Located in the thin filament where it binds calcium and makes tropomyosin.

Question 12

Where is tropomyosin located and what does it do?

Answer 12

Located in the thin filament and blocks myosin binding site on actin.

Question 13

Where is titin located and what does it do?

Answer 13

Runs from the z-disk to the m-line and stabilizes the structure of the sarcomeres.

Question 14

Where is the neublin located and what does it do?

Answer 14

Runs the length of the thin filament and stabilizes that structure.

Question 15

What are the connective tissues layers?

Answer 15

Muscle, muscle bundles, and muscle fibers.

Question 16

What does muscle structure impact?

Answer 16

Tenderness

Question 17

What is epimysium?

Answer 17

Connective tissue (muscle) and is first.

Question 18

What is perimysium?

Answer 18

Connective tissue (muscle bundles) and is second.

Question 19

What is endomysium?

Answer 19

Connective tissue (muscle fibers) and is third.

Question 20

Sarcomeres can ________.

Answer 20

Dictate length

Question 21

What are the two things needed for muscle contraction?

Answer 21

Need energy (ATP) and calcium.

Question 22

What does ATP come from for muscle contraction?

Answer 22

Glycolysis, TCA cycle, and electron transport chain.

Question 23

Where is calcium stored for muscle contraction?

Answer 23

Stored in sarcoplasmic reticulum and the SR is located “outside” the myofibril/sarcomere.

Question 24

What’s the conversion of muscle to meat?

Answer 24

Function of the muscle does not stop at death, during and after slaughter the body is trying to maintain homeostasis, and time.

Question 25

__________ -> _________ -> _________ -> __________

Answer 25

Muscle, muscle bundles, muscle fibers, myofibrils

Question 26

What is the contraction process?

Answer 26

• Calcium released by sarcoplasmic reticulum.
• Calcium binds to troponin, where troponin moves tropomyosin out of the myosin binding site on actin.
• Myosin binds to actin.
• ATP used by myosin head to create the “power stroke,” ATP -> ADP +Pi, and myosin head moves.
• SR pulls calcium out of the muscle cell.
• Actin/myosin bond is broken by ATP.
• Troponin and tropomyosin return to original confirmation.