The Nervous System

Question 1

what two parts is the human nervous system composed of?

Answer 1

the central nervous system (CNS) and the peripheral nervous system (PNS)

Question 2

what is the CNS composed of?

Answer 2

the brain and the spinal cord

Question 3

what is the PNS composed of?

Answer 3

nerves and ganglia (collection of nerves) on the outside of the CNS

Question 4

what do the responses of external or internal stimuli involve?

Answer 4

the reception of information and its transfer from a receptor to an effector via the nervous system or as hormones via the blood in the endocrine system

Question 5

define stimulus

Answer 5

a detectable change in the external or internal environment of an organism

Question 6

give examples of stimulus

Answer 6

light
pressure
temperature

Question 7

define receptor

Answer 7

detects stimulus (one form of energy) and converts this to electrical energy to send the information as an electrical impulse to the central nervous system via neurones

Question 8

give examples of receptors

Answer 8

photoreceptor
thermoreceptor
mechanoreceptor
osmoreceptor
chemoreceptor

Question 9

define effector

Answer 9

receives electrical impulses from the CNS and brings about a response

Question 10

give examples of body receptors

Answer 10

muscles
glands

Question 11

what three functional types (neurones) are in mammals that generate and transmit nerve impulses?

Answer 11

sensory
motor
relay (connector)

Question 12

what is a sensory neurone?

Answer 12

it brings impulses from the sense organs or receptors into the CNS

Question 13

what is a motor neurone?

Answer 13

carries impulses from the CNS to the effector organs (which are the muscles and glands)

Question 14

what is a relay neurone?

Answer 14

receives impulses from certain neurones and passes them on to other appropriate neurones and it’s found within the spinal cord

Question 15

where is the position of the cell body in a sensory neurone?

Answer 15

in the middle of the neurone

Question 16

where is the position
of the cell body in the motor and relay neurone?

Answer 16

at the start of the neurone

Question 17

what neurone out of the three is unmyelinated?

Answer 17

relay neurone

Question 18

what is the function of the axon?

Answer 18

it is an extension of the cytoplasm that transmits impulses away from the cell body to the axon endings

Question 19

what is the function of the dendrites?

Answer 19

they are many thin extensions of cytoplasm that receive impulses from other nerve cells and transmit impulses towards the cell body

Question 20

what is the function of the cell body?

Answer 20

it contains the nucleus and groups of ribosomes in the cytoplasm (Nissl granules) that synthesise neurotransmitters

Question 21

what is the synaptic end bulb

Answer 21

it is the swelling at the end of the axon in which neurotransmitters are stored

Question 22

what do the axon endings do?

Answer 22

they secrete neurotransmitters by exocytosis into the synaptic cleft

Question 23

what three components is only found in the peripheral nervous system?

Answer 23

schwann cells
myelin sheath
nodes of ranvier

Question 24

what are schwann cells?

Answer 24

they surround peripheral neurones in vertebrates and grow around the axon to form a multi-layered myelin sheath

Question 25

what is the myelin sheath?

Answer 25

they are formed as schwann cells grow around the axon in peripheral neurones and provide electrical insulation to speed up nerve impulse transmission

Question 26

what are the nodes of Ranvier?

Answer 26

intervals in the myelin sheath between adjacent schwann cells

Question 27

what is important to label if an exam question asked you to label a neurone and it was pointing to that structure?

Answer 27

the schwann cell nuclues

Question 28

what is the spinal cord and what is it protected by?

Answer 28

it is a long, thin, tubular bundle of nervous tissue and support cells that extends from the brain. most of the peripheral nerves originate from the spinal cord
protected by the spinal column

Question 29

what is the function of the spinal cord?

Answer 29

it is the transmission of neural signals between the brain and the rest of the body and also contains neural circuits that can independently control numerous flexes

Question 30

what is the spinal cord made up of?

Answer 30

a central area of grey matter which mainly contains nerve cell bodies and is surrounded by white matter which consists of nerve fibres surrounded by myelin sheath axons

the spinal cord is surrounded by membranes called meninges

Question 31

what is meant by white matter and grey matter?

Answer 31

when the spinal cord is observed, the cell bodies in the grey matter absorb the dye better so it is a dark colour when looked at

the fatty tissue isn’t as water soluble so it repels the dye and leaves a white colour when observed

Question 32

where are the sensory fibres and the motor fibres found in the spinal cord?

Answer 32

sensory fibres from the PNS enter the spinal cord on the dorsal (back) root and the cell bodies of the sensory fibres are found in the dorsal root ganglia

motor fibres leave via the ventral (front) roots

Question 33

where is the central canal found in the spinal cord and what is its function?

Answer 33

it is a small circle in the middle of the spinal cord

it contains cerebrospinal fluid for protection

Question 34

what are reflex arcs?

Answer 34

it is the simplest type of response and it is an inborn response to a stimulus and is rapid, automatic and beneficial

since the reaction is involuntary it does not involve the brain and such reactions are normally protective in function

Question 35

show the pathway of a reflex arc

Answer 35

1- stimulus
2- receptor
3- sensory neurone
4- CNS
5- relay neurone
6- motor neurone
7- effector
8- response

Question 36

give two examples of reflexes

Answer 36

blinking
retracting from pain

Question 37

how are any reflex action impulses also sent to the brain and how may the brain react?

Answer 37

via ascending nerve fibres that synapse at the grey matter of the spinal cord and the brain may store this information or relate it to other sense data like the eyes
the brain may also override a response using inhibitory nerve fibres

Question 38

what does it mean by a neurone being an excitable cell?

Answer 38

it can change its resting potential (which is the potential difference across the membrane when no nervous impulse is being conducted)

Question 39

how can the potential difference across membranes be measured?

Answer 39

in experiments involving inserting microelectrodes into axons and measuring the changes in electrical potential which can be read on a cathode ray oscilloscope

Question 40

why are neurones from giant squids used?

Answer 40

they are very large

Question 41

when, in potential difference experiments, is there no difference in electrical potential?

Answer 41

when the two microelectrodes are both outside the neurone

Question 42

what is known as potential difference?

Answer 42

when two electrodes are placed on either side of the axon and the difference between the outside and inside of the axon is measured

Question 43

how do neurones transmit electrical impulses along the cell membrane?

Answer 43

by changing the potential difference across the axon membrane of the neurone

Question 44

what is resting potential?

Answer 44

when no impulse is being sent and the inside of the cell has a negative electrical charge compared to the outside

Question 45

how is resting potential maintained?

Answer 45

via the movement of sodium and potassium ions

Question 46

why do we say the membrane is polarised? (carrying on from resting potential)

Answer 46

the large protein anions (negatively charged protein) and the organic phosphates ( eg ATP^-4) remain in the cytoplasm inside the axon thus producing a negative potential difference across the membrane at around -70mV relative to the exterior of the axon

Question 47

describe the mechanism of the sodium and potassium ions in resting potential during nerve transmission

Answer 47

3 Na+ ions are pumped by active transport out of the axon for every two K+ ions that are pumped in by the sodium-potassium pump

voltage-gated K+ ion channels, some of which are open, allow K+ to diffuse back out of the axon

as the voltage-gated Na+ ion channels are closed, the membrane is much more permeable to K+ than Na+

the neurone has a resting potential of -70mV

some K+ channels allow the K+ ions to leave the axon through leakage

Question 48

what is depolarisation?

Answer 48

when the nerve impulse is initiated, the action potential is created

Question 49

how is the action potential generated?

Answer 49

the energy of a stimulus causes some Na+ ion-gated channels to open and the voltage-gated potassium ion channels close

if a threshold voltage is reached, the permeability of the membrane to Na+ increases and they rush into the axon, depolarising the membrane

the negative charge of -70mV inside the axon rapidly becomes a positive charge of +40mV

the membrane is said to be depolarised

Question 50

summarise how repolarisation occurs

Answer 50

the voltage-gated Na+ channels close and the voltage-gated K+ channels open

this causes K+ to rapidly diffuse out of the axon, reducing the potential difference across the membrane

an overshoot causes the membrane to become hyper-polarised

Question 51

describe the refractory period

Answer 51

during this time the concentrations of K+ and Na+ are restored to that of the resting potential

during this time - about 1ms - this portion of the axon cannot transmit another action potential, ensuring that transmission is in one direction only

Question 52

what is the refractory period also known as?

Answer 52

hyperpolarisation

Question 53

describe the initiation or no initiation of an action potential using the threshold

Answer 53

if the intensity of a stimulus is below the threshold (approx. -55mV) then no action potential is initiated

if the intensity of the stimulus exceeds the threshold then an action potential is generated (+40mV)
this ensures that low level stimuli are filtered out

Question 54

what does the all-or-nothing law state?

Answer 54

an action potential is either initiated or is not and it is always the same size

Question 55

explain the all-or-nothing law

Answer 55

the size of the impulse is independent of the stimulus

the speed of conduction of the stimulus is not altered by the intensity of the stimulus

a large stimulus will simply produce a greater frequency of impulses

Question 56

describe once again the nerve impulse transmission which we have learnt for a non-myelinated neurone

Answer 56

Na+ rapidly diffuse down their concentration gradients into the axon during depolarisation to the next part of the axon due to local current effects

this begins to depolarise the adjacent section of the membrane causing voltage-gated Na+ channels to open in these regions to allow more Na to diffuse in, generating an action potential and depolarising this part of the membrane

this spreads a wave of depolarisation along the axon

at the site of the initial action potential generated, Na+ channels are inactivated and can’t reopen again until the resting potential has been re-established

Question 57

in what species is the myelin sheath present in?

Answer 57

vertebrates

Question 58

describe the nerve impulse transmission in a myelinated neurone

Answer 58

the axon is surrounded by Schwann cells that form a myelin sheath to act as an electrical insulator

the nerve impulse appears to jump from one node of Ranvier to the next, as myelin is a lipid-type substance that is impermeable to ions

therefore depolarisation and action potential can only take place at the nodes where there is an abundance of ion channels and Na/K+ pumps

the local currents caused by the diffusion of Na+ are elongated and the speed of transmission is increased. this is known as the saltatory propagation

Question 58

what are three factors affecting the speed of conduction of an impulse?

Answer 58

temperature
size/diameter of an axon
myelination

Question 59

explain temperature as a factor of speed conduction

Answer 59

ions move faster at higher temperatures as they have more kinetic energy

warm-blooded animals transmit nervous impulses more quickly and have faster responses

Question 60

explain the size/diameter of an axon as a factor of speed conduction

Answer 60

the larger the diameter, the greater its volume in relation to the area of the membrane

more Na+ can flow along the axon so impulses travel faster

Question 60

explain the myelination as a factor of speed conduction

Answer 60

this electrical insulation of the axon speeds up the rate of transmission as the action potential jumps from node to node in a process called saltatory propagation

so while nerve impulses in unmyelinated neurones have a maximum speed of around 1m/s, in myelinated neurones that travel at 100m/s

Question 61

what is cnidaria?

Answer 61

a phylum containing aquatic animals such as hydra, jellyfish and sea anemone

Question 62

describe a nerve net

Answer 62

it is the simplest type of nervous system

the sense receptors only respond to a limited number of stimuli and there is only a small number of effectors

the system consists of simple nerve cells with short extensions joined to each other and branching in a number of different directions

Question 63

once again, give a summary of nerve impulse initiation and transmission in 10 points

Answer 63

1- Na+/K+ pumps are working: 3Na+ are actively transported out and 2K+ are transported in and this process requires ATP as transport is against the conc. gradient. causes the membrane to be polarised and the resting potential is -70mV

2- pressure receptor cells in your skin detect an external stimulus and if the threshold is reached, the voltage-gated Na= channels in the area open

3- Na+ diffuses rapidly into the cell resulting in depolarisation

4- an action potential is generated and the membrane potential is now +40mV

5- voltage-gated K+ channels open, Na+ channels close and K+ rapidly diffuse out of the cell which repolarises the membrane

6- the amount of K+ ions that diffuse out is a slight overshoot so the membrane potential falls to approximately -75mV aka hyperpolarisation

7- the resting potential is restored during the refractory period which ensures that the nerve impulse continues in one direction

8- once an impulse is made, a local current is set up between the area where there is an action potential and the resting area next to it

9- Na+ diffuses down their conc. gradient and depolarise the adjacent area to propagate the action potential along the axon

10- in a myelinated neurone the impulse is conducted more rapidly, as the impulse ‘jumps’ from one node of Ranvier to the next as myelin is an electrical insulator

Question 64

what is a synapse?

Answer 64

a junction between two neurones

Question 65

what are the two types of synapses?

Answer 65

electrical and chemical

Question 66

what is an electrical synapse?

Answer 66

a tiny gap approx. 3nm that is small enough for an electrical impulse to be transmitted directly across - an electrical impulse

Question 67

what is a chemical synapse?

Answer 67

involves a gap around 20nm

branches of axons lie close to dendrites and the impulse is transmitted across the synaptic cleft chemically as a neurotransmitter before being converted back into an electrical impulse

Question 68

name a few neurotransmitters

Answer 68

acetylcholine
serotonin
glutamate
histamine
dopamine

Question 69

give the labels of a cholinergic synapse

Answer 69

axon ending
dendrite
neurotransmitters
neurotransmitter transporter
synaptic vesicle
presynaptic cell membrane
Ca2+ channel
synaptic cleft
post synaptic cell membrane
receptor
sodium ion channels
action potential reaches the next neurone

Question 70

describe the mechanism involved in synaptic transmission

Answer 70

an action potential arrives at the axon terminal which causes voltage-gated Ca2+ ion channels to open. the calcium ions diffuse rapidly into the presynaptic knob

the influx of Ca2+ causes vesicles containing acetylcholine to fuse with the presynaptic membrane

the acetylcholine is released into the synaptic cleft by exocytosis and diffuses over the synaptic cleft and binds to receptors on the post synaptic membrane

this causes the sodium ion channels in the post synaptic membrane to open and Na+ diffuses in, depolarising the post synaptic membrane. if the depolarisation reaches the threshold value an action potential is generated in the post synaptic neurone

acetylcholine in the receptors is broken down by cholinesterase into ethanoic acid and choline which diffuse back into the axon terminal through the presynaptic membrane

ATP is then required to re-synthesise and package the neurotransmitters into vesicles

Ca2+ ions use a different protein to be actively transported back out of the synaptic knob to reset its electrochemical gradient

Question 71

what are organophosphates?

Answer 71

organophosphates insecticides acetylcholinesterase inhibitors, which cause repeated firing of the post-synaptic neurone. this results in repeated, uncontrolled contractions of the muscle

Question 72

what do psychoactive drugs do?

Answer 72

act on the CNS and can alter brain function resulting in temporary changes in perception, mood, consciousness and behaviour

Question 73

what do excitatory drugs do?

Answer 73

stimulate the nervous system - increase the number of action potentials

Question 74

what are the possible methods of action with excitatory drugs?

Answer 74

they mimic the action of natural NT - have similar shape and bind to post-synaptic neurone, agonist

prevent breakdown of NT by inhibiting Ach esterase

block reuptake of natural NT

Question 75

give two examples of excitatory drugs

Answer 75

caffeine

cocaine

Question 76

what do inhibitor drugs do?

Answer 76

inhibit the nervous system - decrease the number of action potentials

Question 77

what are the possible methods of action with inhibitor drugs?

Answer 77

blocking receptors in post-synaptic membrane preventing NT binding to them - antagonist

blocking calcium ion uptake

inhibit exocytosis of NT

Question 78

give two examples of inhibitor drugs

Answer 78

cannabis

alcohol

Question 79

how do neurotransmitters work once released from a neuron?

Answer 79

they are released into the synaptic cleft where they cross the gap and land on receptors of the dendrites of the next neuron.
the neurotransmitters are hydrolysed and their constituents are returned to the original cell through transporters in a process called re-uptake.
as long as the neurotransmitter remains in the cleft, the receptors will continue to be stimulated

Question 80

explain how SSRI’s (selective serotonin re-uptake-inhibitor) can treat mood disorders

Answer 80

it prevents the re-uptake of serotonin, so that it continues to stimulate the post-synaptic neurone and this can prolong feelings of happiness and satisfaction

Question 81

what is synaptic pruning?

Answer 81

the process by which some synapses (the ones that are frequently used) become more stable, and the synapses that are barely used wither away