week 3: 10.4

Question 1

typical resting membrane potential in unstimulated neurons and skeletal muscle fibers

Answer 1

-70mV
-85mV

Question 2

what is the membrane potential

Answer 2

measure of cellular polarisation that compares the cytoplasmic membrane surface charge to the extracellular surface charge

Question 3

depolarisation

Answer 3

influx of sodium ions leads to depolarisation as membrane potential becomes less negative

Question 4

hyperpolarisation

Answer 4

movement of potassium ions out of a cell leads to hyperpolarisation as membrane potential becomes more negative

Question 5

repolarisation

Answer 5

return to resting potential

Question 6

what do neurons and skeletal muscle fibres have

Answer 6

electrically excitable membranes

Question 7

what do excitable membranes permit

Answer 7

rapid communication between different parts of a cell

Question 8

what does depolarisation and repolarisation cause in neurons and skeletal muscle fibers

Answer 8

action potential (electrical impulse)
that is propigated along their plasma membranes

Question 9

what do excitable membranes contain

Answer 9

voltage-gated ion channels

Question 10

what are voltage gated ion channels activated and inactivated by

Answer 10

changes in membrane potential

Question 11

when do the electrical channels become activated

Answer 11

when the membranes of neurons and skeletal muscle fibers first depolarise from resting potential to threshold potential

Question 12

threshold potential of neurons

Answer 12

-60mV

Question 13

threshold potential of skeletal muscle fibers

Answer 13

-55mV

Question 14

upon reaching threshold potential,

Answer 14

voltage-gated sodium ion channels open and there is a rapid influx of positively charged sodium ions into a cell

Question 15

what causes the closure of the voltage gated sodium ion channels

Answer 15

depolarisation peaks at a membrane potential of +30mV

Question 16

how does repolarisation of membrane begin

Answer 16

voltage-gated potassium ion channels open and positively charged potassium ion leave the cell

Question 17

what causes the membrane potential to become negative again

Answer 17

the loss of the more positive charges than entered the cell

Question 18

what happens during refractory period

Answer 18

former conc of sodium and potassium ions across cell are restored through sodium-potassium ion pumps

Question 19

why does action potential travel in one direction

Answer 19

Further depolarisation cannot occur until the refractory period is over
prevents action potential propagating back from where it came from

Question 20

skeletal muscles fibers cannot begin contracting until,

Answer 20

they recieve instructions from motor neurons of the CNS

Question 21

how do motor neurons carry instructions

Answer 21

in the form of action potentials

Question 22

when does a contraction of a skeletal muscle fiber begin

Answer 22

sarcoplasmic reticulum releases stored calcium ions into the cytosol of the muscle fiber

Question 23

when does a skeletal muscle fiber contraction end

Answer 23

as the intracellular calcium ions are reabsorbed

Question 24

neuromuscular junction

Answer 24

synapse of a skeletal muscle fiber and a neuron

Question 25

what is the NMJ made up of

Answer 25

axon terminal
motor end plate
synaptic cleft (in between)

Question 26

what is the motor end plate

Answer 26

specialised region of the sacrolemma

Question 27

what is a neurotransmitter

Answer 27

a chemical released by a neuron to change the permeability or other properties if another cell’s plasma membrane

Question 28

what does the cytoplasm of the axon terminal contain

Answer 28

vesicles filled with molecules of ACh

Question 29

what does the synaptic cleft and motor end plate contain

Answer 29

molecules of the enzyme AChE which breaks down ACh

Question 30

what is the synaptic cleft

Answer 30

narrow space that separates the axon terminal of the neuron from the opposing motor end plate

Question 31

what is the stimulus for ACh release

Answer 31

arrival of action potential at the axon terminal

Question 32

what happens when AP reaches neurons axon terminal

Answer 32

permeability changes in its membrane, triggers the exocytosis of ACh into synaptic cleft

Question 33

exocytosis occurs as,

Answer 33

vesicles fuse with the neruron’s plasma membrane

Question 34

once ACh is released into synaptic cleft,

Answer 34

diffuse across synaptic cleft
bind to ACh receptor membrane channels

Question 35

what does ACh binding to ACh receptor channels cause

Answer 35

opens the membrane channel on the surface of the motor end plate

Question 36

sodium ions movement and why

Answer 36

sodium ions rush into the cytosol
becuase extracellular fluid contains high conc of sodium ions and sodium ion conc inside cell is vey low

Question 37

what results in the generation of the action potential in the sarcolemma

Answer 37

sudden inrush of sodium ions

Question 38

how is ACh removed from the synaptic cleft

Answer 38

diffuses away from synapse
or
broken down by AChE

Question 39

what is ACh broken down into by AChE

Answer 39

acetic acid and choline

Question 40

why is the removal of ACh important

Answer 40

leads to the closing of ACh receptor membrane channels

Question 41

excitation contraction coupling

Answer 41

link between the generation of action potnetial in sacrolemma and the start of a muscle contraction

Question 42

where does the excitation contraction coupling occur

Answer 42

at the triads

Question 43

what happens when action potential reaches a triad

Answer 43

triggers the release of Ca2+ from the terminal cisternae of the sarcoplasmic reticulum

Question 44

how long does the change in permeability of the SR to Ca2+ last

Answer 44

0.03 seconds

Question 45

[Ca2+] in and around sarcomere after AP reaches triad

Answer 45

100 times resting level

Question 46

why is the effect of calcium ion release almost instantaneous

Answer 46

because terminal cisternae are loacted at zones of overlpa where thick and thin filaments ineract

Question 47

calcium ions binding to troponin

Answer 47

changes the shape of the troponin molecule
weakens the bond between troponin and actin
troponin molecule changes position rolling the attached tropomyosin strand away from the active sites
contraction cycle begins

Question 48

contraction cycle

Answer 48

series of molecular events that enable muscle contraction

Question 49

after active sights are exposed

Answer 49

myosin heads bind to them forming cross bridges

Question 50

connection between head and tail

Answer 50

functions as a hinge that leads the head pivot
pivots using energy released from hydrolysis of ATP
head swings towards the M line-power stroke
pivoting is the key step in muscle contraction

Question 51

what is the power stroke

Answer 51

when the head swings towards the M line

Question 52

what happens when muscle cells contract

Answer 52

they pull on the attached tendon fibers

Question 53

what type of force is tension

Answer 53

active- energy must be expended to produce it

Question 54

what must applied tension overcome before movement can occur

Answer 54

the objects load (or resistance)

Question 55

what is an objects load/ resistance

Answer 55

a passive force that opposes movement

Question 56

what does the load of an object depend on

Answer 56

weight, shape, friction ect

Question 57

when does the object move

Answer 57

when applied tension exceeds the load

Question 58

what is compression (force)

Answer 58

push applied to the object, tends to force object away from source of compression

Question 59

no movement can occur until applied compression,

Answer 59

exceeds load of object

Question 60

why can muscle cells pull but not push

Answer 60

muscle cells can use energy to shorten and generate tension through interaction between thick and thin filaments, but not to lengthen and generate compression

Question 61

what does each power stroke result in

Answer 61

sarcomere shortened by 0.5 %

Question 62

why does the entire muscle shorten at the same rate

Answer 62

all the sarcomeres contract together

Question 63

what does the speed of the sarcomere shortening depend on

Answer 63

the cycling rate- the number of power stroeks per second

Question 64

relationship between load and cycling rate

Answer 64

the greater the load, the slower the cycling rate

Question 65

duration of contraction depends on

Answer 65

1. period of stimulation at NMJ
2. presence of free calcium ions in cytosol
3. availability of ATP

Question 66

contraction will continue if

Answer 66

additional action potentials arrive at NMJ in rapid sucession

Question 67

what does a series of action potentials arriving at the NMJ causing the continual release of ACh produce

Answer 67

series of action potentials in the sarcolemma that keeps Ca2+ levels elevated in cytosol