Chapter 12 Muscles

Question 1

what are the 3 muscle types and their characteristics

Answer 1

skeletal muscle - striated, voluntary (somatic), attached to bones
smooth muscle - non-striated, involuntary (autonomic), in organs and skin
cardiac muscle - striated, involuntary (autonomic), in heart

Question 2

what is a skeletal muscle cell called

Answer 2

muscle fiber

Question 3

muscle fiber

Answer 3

multiple nuclei
up to 20cm long
usually shorter than entire muscle, some as long

Question 4

skeletal muscle

Answer 4

multiple muscle fibers with connective tissue bound together

Question 5

what is the muscle attached to the bone by

Answer 5

tendons

Question 6

what does each muscle fiber contain

Answer 6

myofibrils, which contain myofilaments (myosin and actin)

Question 7

what is responsible for the striated appearance in a skeletal muscle

Answer 7

dark A bands (thick filaments, myosin)

and light I bands (thin filaments, actin)

Question 8

what is a neuromuscular junction

Answer 8

location where muscle fiber and neuron meet

Question 9

pathway of Action Potential in muscle

Answer 9

AP in motor neuron - release of acetylcholin (ACh) into neuromuscular junction - ACh binds to nicotinic ACh receptor (NAchR) in the muscle fiber - AP occurs and results in contraction of fiber

Question 10

motor unit

Answer 10

one motor neuron and all the muscle fibers it controlls

Question 11

what do smaller motor units allow

Answer 11

finer muscle control

Question 12

what is recruitment

Answer 12

increase the # of active motor units in a muscle = increase the strength of a contraction

Question 13

what is summation

Answer 13

stimulation of motor units at different time, results in summation of contraction and increased muscle strenght

Question 14

myofibril

Answer 14

bundle of myofilaments

Question 15

different section of myofibril

Answer 15

sarcomere

Question 16

what are the striations in myofibrils due to

Answer 16

thick and thin protein myofilaments

Question 17

thick myofilament

Answer 17

dark appearance
Myosin
has two globular heads that form cross-bridges (contact actin during contraction)

Question 18

thin myofilament

Answer 18

light appearance
actin
regulate contraction
composed of troponin C
Tropomyosin

Question 19

what does troponin C bind

Answer 19

Calcium

Question 20

what does troponin T bind

Answer 20

Tropomyosin

Question 21

what does troponin I bind

Answer 21

actin

Question 22

what does tropomyosin do

Answer 22

blocks myosin binding site on actin

Question 23

what is a sarcomere

Answer 23

the basic contractile unit in striated muscle

Question 24

characteristics of sarcomere

Answer 24

section of myofibril
Z lines at each end
composed of Actin(connected to Z lines) and Myosin (connected in place by titin)

Question 25

cross-bridges

Answer 25

myosin contacts actin during contraction

Question 26

contraction

Answer 26

activation of the force-generating sites (cross-bridges) in muscle fibers

Question 27

what is the sliding filament mechanism

Answer 27

overlapping thick and thin filaments in sarcomere move past each other to contract the muscle

Question 28

what happens during the sliding filament machanism

Answer 28

myosin binds to actin
myosin pulls Z lines closer together
reduction of width of I-bands

Question 29

what happens to the binding site in actin in a relaxed muscle

Answer 29

it is blocked by tropomyosin

Question 30

what does troponin do

Answer 30

holds tropomyosin in blocking position

Question 31

what is troponin

Answer 31

a heterotrimer (wihtin 3 substunits - CTI)

Question 32

what needs to happen that the myosin cross-bridge can bin to actin

Answer 32

tropomyosin must move away from blocking position

Question 33

what happens during contraction of a muscle

Answer 33

muscle fiber depolarizes due to arriving AP
release from Ca2+ from sarcoplasmic reticulum
Ca2+ binds to troponin C
troponin T chnages shape -> tropomyosin moves away from blocking actin
myosin cross-bridge binds to actin

Question 34

trigger for contraction

Answer 34

Ca2+

Question 35

3 thin filaments

Answer 35

troponin, tropomyosin, actin

Question 36

activation of myosin head

Answer 36

ATP binds to myosin head

head becomes “cocked” - ready to bind to actin

Question 37

cross bridge power stroke

Answer 37

phosphate is released

cross bridge produces power stroke

Question 38

what is the result of a power stroke

Answer 38

myosin head moves actin filaments

Question 39

pathway of a power stroke

Answer 39

ATP hydrolysis
myosin gets “cocked” (active)
binding of myosin to actin releases energy
comformation change in myosin = power stroke
actin is pulled toward center of sarcomere
new ATP attaches to myosin head to break it away

Question 40

role of calcium in muscle contraction

Answer 40

Ca2+ released by sarcoplasmic reticulum into sarcoplasm
binds with tropomin C
Tropomyosin moves away from blocking position

Question 41

what brings AP into skeletal muscle fiber

Answer 41

transvers tubule (T-tubule)

Question 42

what is the period between the AP and the contraction called

Answer 42

Latent period

Question 43

when is calcium released

Answer 43

as a consequence of an arriving AP

Question 44

how long does AP in fiber last

Answer 44

1-2 ms, ends before contraction

Question 45

what does an AP stimulize

Answer 45

membrane close to the sarcoplasmic reticulum

Question 46

why is the sarcoplasmic reticulum surrounded by extensive meshwork

Answer 46

to assure that all the released Ca2+ ions diffuse to all the toponin C

Question 47

pathway from AP to muscle contraction

Answer 47

AP arrives at motor neuron
release of ACh
ACh binds to nicotinic ACh in sarcolemma
Na+ diffueses in - causes AP
AP enters Transverse tubules
Ca2+ channels open
Ca2+ diffuses out into sarcoplasm
Ca2+ binds to troponin - stimulates contraction in myofibrils

Question 48

what means tension

Answer 48

force pulling on an object by a contracting muscle

Question 49

what is a load

Answer 49

force exerted (anüben) on muscle by an object

Question 50

relationship of load and tension

Answer 50

opposing forces

Question 51

what is a twitch

Answer 51

contaction of a muscle fiber to single AP

Question 52

summation

Answer 52

increase in muscle tension

successive (following) APs during contraction

Question 53

recruitment

Answer 53

increased activation of muscle fibers due to stronger AP

Question 54

what are the types of contraction

Answer 54

isometric contraction

insotonic contraction

Question 55

characteristics of isometric contraction

Answer 55

“same size” contraction
muscle develops tension but does not change length
tension = load
can be converted into isotonic contraction
holding a box

Question 56

characteristics of isotonic contraction

Answer 56

“same tension” contraction
tension remains constant and muscle changes length
tension > load
lifting or lowering a weight

Question 57

length tension relationship

Answer 57

optimal length = lots of actin-myosin overlap & plenty of room to slide - max. tension
short & long sarcomere = lack of room to slide or actin-myosin don´t overlap enough - little tension

Question 58

by what are skeletal muscle fibers differentiated

Answer 58

contraction speed (fast or slow twitch)
pathway used to form ATP (oxidative, glycolytic)

Question 59

oxidative muscle fibers

Answer 59

red due to many blood vessels
use oxydative phosphorylation
high capacity for aerobic respiration
a lot of mitochondria

Question 60

glycoliytic fibers

Answer 60

anaerobic respiration of glycogen
white, few blodd vessels
larger diameter
little amount of mitochndria

Question 61

3 muscle fiber types

Answer 61

type I slow oxidative fibers
type II A fast oxidative fibers
type IIX fast glycoliytic fibers

Question 62

charcteristics of type I slow oxidative fibers

Answer 62

fatigue-resistant
small diameter, red
many mitochondria
oxidative, low glycolytic
body posture

Question 63

characteristics of type II A fast oxidative fibers

Answer 63

fatigue-resistant
response quickly
intermediate diameter, red
many mitochondria
oxidative, intermediate glycolytic
walking

Question 64

characteristics type IIX glycolytic fibers

Answer 64

fatigable
large diameter, white
high glycolytic
fewer mitochondria
sprinting

Question 65

what is muscle fatigue

Answer 65

decrease in muscle tension due to previous contraction

Question 66

reasons for fatigue

Answer 66

conduction failure
lactic acid builup
reduced ability of sarcoplasmatic reticulum to release Ca2+
use of all muscle glycogen during low intensity

Question 67

muscle cramps

Answer 67

involuntary tetanic contraction due to electrolyte imbalance or persistant dehydration

Question 68

hypocalcemic tetany

Answer 68

involuntary contraction due to low extracellular Ca2+ concentration

Question 69

muscular dystrophy

Answer 69

deterioration (Verschlechterung) of muscle

Question 70

myasthenia gravis

Answer 70

paralysis due to increased # of ACh receptors

Question 71

cardiac muscle

Answer 71

only in heart
involuntary
similarities to skeltal and smooth muscle
muscle cells join end to end at intercalted disks

Question 72

pathway from AP to muscle contraction

Answer 72

AP arrives at motor neuron
release of ACh
ACh binds to nicotinic ACh in sarcolemma
Na+ diffueses in - causes AP
AP enters Transverse tubules
Ca2+ channels open
Ca2+ diffuses out into sarcoplasm
Ca2+ binds to troponin - stimulates contraction in myofibrils

Question 73

why is the sarcoplasmic reticulum surrounded by extensive meshwork

Answer 73

to assure that all the released Ca2+ ions diffuse to all the toponin C

Question 74

cardiac muscle contraction

Answer 74

AP goes through T-tubules
Ca2+ enters cell through gates
depolarization
release of more Ca2+ through sarcoplasmatic reticulum
thin filament-, cross-brige activation and force generation same as in skeletal muscle

Question 75

characteristics of smooth muscle

Answer 75

no striation, no myofibrils, no sarcomeres
arranged in layers, not long fibers
involuntary - nervous part of autonomic nervous system
no troponin needed

Question 76

what is the key difference in the cross brodge activation in smooth muscles

Answer 76

no troponin C
tropomyosin doesn´t block cross-bridge access to actin
changes in thick filaments due to Ca2+ activate cross-bridges

Question 77

where does calcium come from - smooth muscle

Answer 77

internal- (SR) and external source (ECF)

Question 78

what causes the contraction of smooth muscles

Answer 78

Ca2+ binds to calmodulin
calmodulin activates enzyme (myosin light-chain kinase)
phosphorylated myosin bind to actin
cross-bridges generate force