Knee jerk reflex and action potentials SEM1

Question 1

what is the typical path of a neuron

Answer 1

sensory receptor => CNS => effector

Question 2

what are the components of the monosynaptic reflex arc

Answer 2

spinal cord
muscle spindle (sensory receptor)
skeletal muscle (effector)

Question 3

what is a reflex

Answer 3

stereotypical motor response due to a stimulus - independent of conscious thought

Question 4

when does the spindle signal to the CNS

Answer 4

when muscle length changes via changes in action potential frequency (defines length of muscle)

Question 5

at resting membrane potential what is the charge inside compared to outside the cell

Answer 5

-ive inside the cell compared to outside

Question 6

what is the volume of potassium (K+) inside and outside the cell

Answer 6

intracellularly = 140nM
extracellularly = 5nM

Question 7

what is the volume of sodium (Na+) inside and outside the cell

Answer 7

intracellularly = 15nM
extracellularly = 150nM

Question 8

what is the volume of calcium (Ca2+) inside and outside the cell

Answer 8

intracellularly = 0.0001nM
extracellularly = 2nM

Question 9

what is the underlying mechanism of the chemical electrochemical gradient

Answer 9

ions flow from high to low conc.

Question 10

what is the underlying mechanism of the electrical electrochemical gradient

Answer 10

ions flow towards regions of opposite charge

Question 11

what is typically resting potential for K+ at equlibrium

Answer 11

typically -70 to -90mV

Question 12

how does the m gate work in voltage gated Na+ channel

Answer 12

m gate opens rapidly with depolarisation

Question 13

how does the h gate work in voltage gated Na+ channel

Answer 13

h gate blocks open channel (inactivation)

Question 14

how does the n gate work in voltage gated K+ channel

Answer 14

n gate opens slowly with depolarisation and closes slowly repolarisation

Question 15

what does depolarisation cause

Answer 15

influx of +ive ions = cell becomes more +ive

Question 16

what does repolarisation cause

Answer 16

efflux of +ive ions = cell becomes less +ive

Question 17

what does hyperpolarisation cause

Answer 17

greater efflux of +ive ions than at rest = cell more -ive than rest

Question 18

what are characteristics of slow conduction in fiber diameter

Answer 18

small diameter axon (D1)
higher resistance of cytoplasm (Ri1)
harder for ions to flow through axon
depolarisation decays more rapidly

Question 19

what are characteristics of fast conduction in fiber diameter

Answer 19

large diameter axon (D2)
low resistance for cytoplasm (Ri2)
easier for ions to flow through axon
depolarisation maintained for longer

Question 20

what are characteristics of slow conduction in membrane resistance

Answer 20

low resistance of membrane (Rm1)
easier for ions to flow out of axon
depolarisation decays more rapidly

Question 21

what are characteristics of fast conduction in membrane resistance

Answer 21

high resistance of membrane (Rm3)
easier for ions to flow along axon
depolarisation maintained for longer

Question 22

what is the effect of myelin sheath on conduction velocity

Answer 22

myelin sheath increases membrane resistance, increases length constant

Question 23

what is demyelination a result of

Answer 23

slowing nerve conduction

Question 24

what diseases can occur from demyelination

Answer 24

multiple sclerosis
guillan barre syndrome