Lecture Exam 3 - Muscular System Study Guide

Question 1

Define term: Energy

Answer 1

Capacity to do work

Question 2

Define Term: Potential Energy

Answer 2

Energy stored by matter due to its position

Question 3

Define Term: Kinetic Energy

Answer 3

energy associated with matter in motion

Question 4

Define Term: Chemical Energy

Answer 4

a form of potential energy stored in the bonds of compounds and molecules

Question 5

Define Term: Exergonic Reaction

Answer 5

chemical reactions that release more energy than they absorb

Question 6

Define Term: Endergonic Reaction

Answer 6

chemical reactions that absorb more energy than they release

Question 7

Define Term: Cellular Respiration

Answer 7

the process by which glucose provides the energy to make ATP. Cellular repiration as two phases: anaerobic and aerobic. In the anaerobic phase, glucose is partially broken down into pyruvie aold by a series of reactions that do not require energy. In the aerobic phase, glucose is completely broken down to CO2 and H2O. Oxygen is required for this process.

Question 8

Understand how different joints mimic different types of levers [NEED TO INCLUDE DIFFERENT LEVEL SLIDES]

Answer 8

Bnes at as levers, a ridgid structure that can move around a fixed point (the fulcrum). The joint functions as the fulcrum of the lever. Two forces come into play: 1) Effort which cases movement and 2) Load or resistance which opposes movement.

Question 9

Understand how the muscle uses ATP to produce energy necessary for muscle contraction.

Answer 9

Muscle stores energy in ATP in mitochondria (in 3rd phosphate bond). Myosin head (myosin = thick filament) has an ATP-binding site and an ATPase (enzyme that converts ATP to ADP). Energy provided results in change of position of head (breaks the crossbridges) ATP is thus required for both formation of crossbridges and detachment of crossbridges.

Question 10

Understand how energy obtained from glucose is stored in the covalent bonds of ATP ready for future use.

Answer 10

The process by which glucose provides the energy to make ATP is called cellular respiration. Cellular respiration has two phases: anaerobic and aerobic. In the Anaerobic phase, glucose is partially broken down into pyruvic acid by a series of reactions that do not require energy. In the aerobic phase, glucose is completely broken down to CO2 and H2O. Oxygen is required for this process.

Question 11

How the distinguising histological features and functions of the three muscle types: Skeletal

Answer 11

-Long striated fibers -Peripheral Nuclei -Voluntary Control -Usually attached to bones via tendons -Important in motion, posture, heat production, and protection

Question 12

How the distinguising histological features and functions of the three muscle types: Cardiac

Answer 12

-Branched, striated fibers -Involuntary Control -Centrally located nuclei -Pound in heart wall -Pumps blood to all parts of the body

Question 13

How the distinguising histological features and functions of the three muscle types: Smooth

Answer 13

-Spindle-shaped, non-striated with centrally located nuclei -Involuntary Control -Walls of internal organs such as blood vessels, GI tract, airways to lungs. Gall bladder, urinary bladder, uterus. -Motion, e.g. contriction of blood vessels, movement of food through GI, contraction of bladder, uterus

Question 14

Understand how muscle achieves each of the following functions: Producing body movement

Answer 14

relies on integrated functioning of bones, joints, muscles and nervous system. Muscle contractions on bones create movement.

Question 15

Understand how muscle achieves each of the following functions: Stabilizing body positions

Answer 15

Skeletal muscles stabilize joints and help maintain body positions. Postural muscles contract continually when you are awake.

Question 16

Understand how muscle achieves each of the following functions: Storing and moving substances within body

Answer 16

-Smooth muscle allows for continual contraction of ringlike bands of muscle (sphincters), e.g. storage of food in stomach - Contraction and relaxation of smooth muslce walls of blood vessels allows for storage of blood.

Question 17

Understand how muscle achieves each of the following functions: Generating heat

Answer 17

As muscle contracts it generates heat in a process known as thermogenesis – this heat is used to maintain normal body temperature. Involuntary contractions of skeletal muscle (shivering) can generate more heat.

Question 18

What are the properties of musle tissue?

Answer 18

Excitability, contractibility, extensibility, elasticity

Question 19

Define Term: Fascia

Answer 19

means a broad band of connective tissue that surrounds muscle or other organs

Question 20

Define Term: Epimysium

Answer 20

Three distinct layers of connective tissue surround and protect skeletal muscle. The epimysium is the layer that encircles the entire muscle.

Question 21

Define Term: Perimysium

Answer 21

Three distinct layers of connective tissue surround and protect skeletal muscle. The perimysium sorrounds groups of 10-100 or more muscle fibers. This separates them into bundles called fascicles.

Question 22

Define Term: Endomysium

Answer 22

Three distinct layers of connective tissue surround and protect skeletal muscle. The Endomysium separates individual muscle fibers within fascicles.

Question 23

Define Term: Fascicle

Answer 23

Bundles of approx 10-100 or more muscle fibers within a muscle, surrounded by the Perimysium. Some Fasicles large enough to be seen with the naked eye.

Question 24

Define Term: Tendon

Answer 24

Epimysium, perimysium, and endomysium are continuous with the connective tissue that connects muscles to other organs. When they extend in long parallel bundles to attach a muscle to a bone, they are called a tendon.

Question 25

Define Term: Aponeurosis

Answer 25

A tendon that extends in a broad flat layer. E.g. how the occipitofrontalis muscles attach to the skull.

Question 26

Define Term: Muscle fiber

Answer 26

Muscle cells are called muscle fibers. Mutlinucleat and formed from many myoblasts.

Question 27

Define Term: Myoblast

Answer 27

Embryonic cells called myoblasts fuse to form muscle fibers.

Question 28

Define Term: Satellite cell

Answer 28

some myoblast-derived cells called satelite cells remain in the adult, and can accomplish some muscle regeneration, though the number of muscle fibers in set before you are born.

Question 29

Define Term: Sacolemma

Answer 29

the plasma membrane of the muscle fiber

Question 30

Define Term: Transverse tubule

Answer 30

tiny structures of the sarcolemma (plasma membrane in muscle), which tunnel in from the surface toward the center of the cell

Question 31

Define Term: Triad

Answer 31

a group consisting on a T-Tubule and the terminal cisternae of the two adjastent sarcoplasmic reticulums

Question 32

Define Term: Sarcoplasm

Answer 32

the cytoplasm of muscle cells

Question 33

Define Term: Myoglobin

Answer 33

An oxygen-binding protein found only in the sarcoplasm of skeletal muscle

Question 34

Define Term: Myofibril

Answer 34

-Small structures that run through the sarcoplasm of muscle fibers. -Specialized contractile organelles of muscle fibers

Question 35

Define Term: Sarcoplasmic reticulum

Answer 35

the endoplasmic reticulum of muscle fibers. abundant and encircles each myofibril

Question 36

How are mutlinucleated muscle fibers formed?

Answer 36

fusion of myoblasts

Question 37

Know the organization and components of thin and thick filaments.

Answer 37

Thick filaments are composed on Myosin. Thin filaments are mainly composed of Actin, but also contain two regulatory proteins -- tropomyosin and troponin. Individual actin molcules form a twisted helical filament.

Question 38

Know the organization of a sarcomere

Answer 38

One sacromere goes from Z disc to Z disc, with the M line at the center. Thin filaments are on both sides of the thick filaments. The I band is the zone of thin filament before the thick filament. the H zone is the zone of thick filament and no thin filament (both H zone and I band shrink during contraction). A band is length of thick filament (length of thin and thick filaments remain the same during contraction.

Question 39

Know the structure of actin and myosin

Answer 39

Mysoin is composed of a head and tail component Myosin molecules look like two golf clubs with the long ends twisted together. Individual actin molcules form a twisted helical filament, with myosin binding heads of actin attached to tropomyosin. Actin molecules look like little balls.

Question 40

Know the function of myosin

Answer 40

-Myosin is a "motor protein" - a protein capable of pushing or pulling cellular structures. -Movement requires ATP, and chemical energy is converted to mechanical energy.

Question 41

Know the function of actin

Answer 41

Each actin molecule has a mysoin binding site which binds to the myosin head to create crossbriges. Myosin binding sites are covoered by tropomyosin until calcium binds to troponin to pull the tropomyosin away.

Question 42

Know the function of titin

Answer 42

A large protein that anchors thick filaments to the Z discs and M line, stabilizing the location of the thick filament

Question 43

Know the function of nebulin

Answer 43

A large protein that anchors actin filaments to the Z discs

Question 44

Know the function of dystrophin

Answer 44

A cytoskeletal protein that anchors thin filamnets to membrane proteins of the sarcolemma

Question 45

Know the steps in the the sliding filament mechanism of muscle contraction

Answer 45

Lengths of thin and thick filaments are the same in both contraction and relaxation. Muscle shortens during contraction because thick and thin filaments slide over each other. Contraction analogouos to running on a treadmill - crossbridge is foot striking the treadmill, moving the actin (belt) backward toward the M line.

Question 46

Understand the roles of ATP, calcium, and the troponin/tropomyosin complex

Answer 46

Calcium ions released into the sacroplasm from the sarcoplasmic reticulum bind with troponin which moves the troponin-tropomyosin complex away from the myosin-binding site on the actin. Mysoin requires energy from ATP in order to break crossbridges. Myosin head has an ATP-binding site and an ATPase. Required fro formation and detachment of crossbridges.

Question 47

Understand the meaning of the term: crossbridge"and "excitation contraction coupling"

Answer 47

Crossbridge: when mysoin heads bind to actin

Question 48

What is rigor mortis?

Answer 48

When muscles contract after death.

Question 49

Describe what happens in rigor mortis

Answer 49

-After death, cellular membranes become leacky. -Calcium ions leak out of sacroplasmic reticulum -Mysosin binding sites are exposed on actin and crossbridges form. -However, no more ATP is being made to break the crossbridges, so muscles go into a state of contraction until lysosomal enzymes break down the crossbridges.

Question 50

What are the nerves that stimulate skeletal muscle at the neuromuscular junction called?

Answer 50

somatic motor neurons

Question 51

Where are the cell bodies of neurons located?

Answer 51

in the brain and spinal cord

Question 52

Define Term: Synapse

Answer 52

region where communication occurs between two neurons or between a neuron and a target cell.

Question 53

Define Term: Synaptic Cleft

Answer 53

gap between the two cells at a synapse (between the synaptic end bulb and the motor end plate)

Question 54

Define Term: Synaptic end bulb

Answer 54

the part of the motor nuron axon that terminates on the muscle

Question 55

Define Term: Synaptic Vesicle

Answer 55

The synaptic end bulb contains hundreds of membrane bound secretory vesicles, containing the neurotransmitter acetylcholine (ACh)

Question 56

Define Term: Neurotransmitter

Answer 56

A neurotransmitter is a chemical messenger that carries, boosts and modulates signals between neurons and other cells in the body. In most cases, a neurotransmitter is released from the axon terminal after an action potential has reached the synapse.

Question 57

Define Term: Motor End plate

Answer 57

the region of the sarcolemma opposite the synaptic end bulb.

Question 58

Define Term: Acetylcholine Receptor

Answer 58

receptors on the sarcolemma of the motor end plate. Ligand-gated ion channels. When acetylcholine binds to the receptor, a channel opens that allows sodium ions to flow into the cell down and electrochemical gradient, which triggers a muscle action potential.

Question 59

Define Term: Nerve Impulse

Answer 59

nerve action potential. An electical signal that travels along the surface of a neuron. An action potential begins due to the movement of ions through ion channels in the plasma membrane of the neuron. At the neuromuscular junction, the nerve action potential is converted to a muscle action potential.

Question 60

Define Term: Exocytosis

Answer 60

A process of cellular secretion or excretion in which substances contained in vesicles are discharged from the cell by fusion of the vesicular membrane with the outer cell membrane.

Question 61

Define Term: Acetylcholinesterase

Answer 61

The enzyme that removes Acetylcholine from the synaptic space.

Question 62

What is the neurotransmitter that is released at the NMJ?

Answer 62

Acetylecholine

Question 63

What are acetylcholine receptors?

Answer 63

These receptors are ligand gated ion channels (acetylcholine is the ligand -- the substance that binds to active the receptor)

Question 64

Once opened, what ions flow through the channel of the acetylcholine receptor?

Answer 64

Sodium

Question 65

What enables the flow of ions through the acetylcholine receptor?

Answer 65

acetylcholine binding to the acetylcholine receptors

Question 66

What happens when the ions introduced through the acetylcholine receptor reach the intracellular surface of the sarcolemma?

Answer 66

Sodium enters and flows down its concentration gradient. -Na+ influx down its electrochemical gradient makes the inside membrane of the muscle fiber more positively charged -this triggers a muscle action potential -the action potential is propagated from the sarcolemma to the T-tubule system and causes the sacroplasmic reticulum to release stored calcium

Question 67

What is the muscle action potential?

Answer 67

The muscle action potential is an electrical signal generated by the entry of sodium ions through the acetylcholine receptors

Question 68

Explain how the electrical signal is transmitted rapidly to the sarcoplasmic reticulum via the T-tubules.

Answer 68

T-tubules form triads with the terminal cisternae of the two adjacent sacroplasmic reticulums in order to relay the electrical signal quickly

Question 69

Define Term: T-tubule

Answer 69

Transverse tubule -- indentation of the sarcolemma. T-tubule system: T-tubules in association with the sarcoplasmic reticulum of adjacent sarcomeres.

Question 70

Define Term: Triad

Answer 70

a T-tubule and the terminal cisternae of the sarcoplasmic reticulum of the two adjacent sarcomeres.

Question 71

Define Term: Terminal Cisternae of the sacroplasmic reticulum

Answer 71

Terminal cisternae are enlarged areas of the sarcoplasmic reticulum surrounding the transverse tubules

Question 72

Define Term: Calsequestrin

Answer 72

potein that binds to calcium inside the sarcoplasmic reticulum to allow for storage of high concentrations of calcium ions.

Question 73

From where are the calcium ions released to initiate contraction?

Answer 73

Sacroplasmic reticulum

Question 74

Know the mechanisms of action and applications of botulinum toxin:

Answer 74

-Blocks exocytosis of synaptic vesicles at NMJ. -Result is that ACh is not released and muscle contraction does not occur -Used clinically as botox

Question 75

What is electromyography?

Answer 75

test that measures muscle action potentials (muscle electrical activity) in resting and contracting muscles.

Question 76

What are some uses of electromyography?

Answer 76

helps determine if muscle weakness is due to a malfunction in the muscle or a malfunction in the nerves supplying the muscle at NMJs. Useful in diagnosis of diseases such as muscular dystrophy.

Question 77

Describe how muscle can generate ATP from creatin phosphate

Answer 77

When muscles relax, they create more ATP than they need while resting. Excess ATP is used to synthesize creatine phosphate. Creatine phosphate is an energy rich molecule only found in muscle fibers. When high muscle metabolism begins during exercise, the phospate group from creatine phosphate is ternsferred back to ADP to quickly generate more ATP.

Question 78

Describe how muscle can generate ATP from anaerobic cellular respiration

Answer 78

Muscle glycogen is broken down into glucose or glucose is taken from blood. Gycolysis creates two molecules of ATP and 2 molucules of Pyruvic acid, which is then broken down into 2 molecules of lactic acid which is released into the blood [READ THIS TEXTBOOK SECTION]

Question 79

Describe how muscle can generate ATP from aerobic cellular respiration

Answer 79

Requires oxygen to produce ATP in mitochondria. Mitochondria takes in: -fatty acids liberated from adipose cells -Pyruvic acid from glycolysis -Oxygen from hemoglobin in blood or from myoglobin in muscle fibers -Amino acids from protein breakdwon Mictochondria releases: -Heat -ATP -CO2 -H20

Question 80

What is muscle fatigue?

Answer 80

The inability of muscle to maintian force of contraction after prolonged exercise

Question 81

What are some possible reasons for muscle fatigue?

Answer 81

-Inadequate release of calcium from SR -Depletion of Creatine Phosphate -Insufficient Oxygen -Depletion of Nutriets -Build up of lactic acid

Question 82

Define Term: Oxygen debt

Answer 82

during exercise, breathing rate, heart rate, and blood flow increase Continues after exercise to replace oxygen dept Oxygen dept is required to restore metabolism to resting state in 3 ways: 1) to convert lactic acid back into glycogen stores in liver 2) to resynthesize creatine phosphate and ATP in muscle fibers 3) to replace oxygen removed from myoglobin

Question 83

Define Term: Motor Unit

Answer 83

a somatic motor neuron and the group of muscle fibers it stimulates

Question 84

Define Term: Twitch contraction

Answer 84

the brief response of all muscles in a motor unit to a single action potential.

Question 85

Define Term: Aerobic Exercise

Answer 85

Aerobic exercise - regular repeated exercise, e.g. jogging, cycling - increate supply of oxygen rich blood to muscle. Aerobic exercise builds endurance.

Question 86

Define Term: Anaerobic Exercise

Answer 86

anaerobic activities, e.g. weight lifting, rely more on anaerobic production of ATP. Strength training increases the synthesis of muscle proteins.

Question 87

Define Term: Concentric isotonic contraction

Answer 87

Isotonic contractions: tension (force of contraction) in muscle remains almost constant while the muscle changes length. Concentric isotonic contraction: tension generated great enough to overcome resistance and move an object

Question 88

Define Term: Eccentric isotonic contraction

Answer 88

Isotonic contractions: tension (force of contraction) in muscle remains almost constant while the muscle changes length. Eccentric isotonic contractions: length of muscle increases during contraction

Question 89

Define Term: Isometric contraction

Answer 89

the tension generated is not enough to exceed the resistance of an object object stays in place and length of muscle does not change important for maintaining posture

Question 90

How is normal metabolism restored by continued oxygen consumption after exercise?

Answer 90

Oxygen dept is required to restore metabolism to resting state in 3 ways: 1) to convert lactic acid back into glycogen stores in liver 2) to resynthesize creatine phosphate and ATP in muscle fibers 3) to replace oxygen removed from myoglobin

Question 91

Describe the appearance and function of each type of muscle fiber: Slow oxidative

Answer 91

darkest in appearance. more aerobic respiration (more mitochondria) Better for endurance, e.g. cross country running

Question 92

Describe the appearance and function of each type of muscle fiber: fast oxidative-glycolytic

Answer 92

darker than fast glycolytic and lighter than slow oxidative in appearance. some anaerobic and some aerobic respiration.

Question 93

Describe the appearance and function of each type of muscle fiber: Fast glycolytic

Answer 93

lightest in appearance. more Anaerobic resipration (fewer mitochondria) Intense activities (e.g. weight lifting) requires a greater proportion of fast glycolytic fiber

Question 94

What do anabolic steroid do to muscle mass?

Answer 94

increate muscle size

Question 95

What do anabolic steroids do to general health?

Answer 95

increase risk of heart disease, liver and kidney damage, and sex horomore-related problems

Question 96

Define Term: Myopathy

Answer 96

in neuromuscular diseases, the term myopathy indicates that the problem is with the skeletal muscle.

Question 97

Define Term: Neuromuscular disease

Answer 97

diseases that can occur as a result of problems of the somatic motor neurons. The neuromuscular junctions or the muscle fibers themselves.

Question 98

Explain the symptoms and causes of Myasthenia Gravis

Answer 98

-An autoimmune disease. -Chronic damage to NMJ. -Antobodies are produced that bind to ACh receptors, decreasing the number of receptors available for ACh binding. -Muscles become weak and fatigue easily. -Intially treated with anti-cholinesterase drugs that inhibit acetylcholinesterase.

Question 99

Explain the Symptons and causes of Muscular Dystrophy

Answer 99

-Refers to a group of diseases in which muscle is destroyed. -In Duchenne Muscular Dystrophy, there is a mutation in the gene that encodes for dystrophin (a protein that anchors thin filaments to the sarcolemma). -Without dystrophin, muscle fibers are easily ruptured

Question 100

Understand the meaning of the term: excitation-contraction coupling

Answer 100

DEFINITION:The combined events that connect the action potential (excitation) to the muscle contraction. In a relaxed state, intracellular [Ca2] in the sacroplasm is low. Calcium ions are stored in high concentration in the sarcoplasmic reticulum. When an action potential is generated at a neuromuscular juntion, it moves from the sarcoplasmic reticulum along the T-tubules to the membrane of the sarcoplasmic reticulum. This causes the release of calcium ions from the sacroplasmic reticulum into the sacroplasm through calcium release channels.

Question 101

Know the mechanisms of action and applications of curare.

Answer 101

binds to and clocks ACh receptors (a receptor antagonist) receptor ion channels do not open, so a muscle action potential is not triggered. Used surgically to relax muscles during surgery