Unit 2: Neurophysiology

Question 1

What types of cells make up the nervous system?

Answer 1

neurons

[the functional cell of the NS]

Question 2

Define “nerve impulse” (describe the different forms of “nerve impulse”).

Answer 2

an electrical signal

1. graded potential
2. action potential

Question 3

Describe the basic structural divisions of the neuron.

Answer 3

Question 4

Describe the myelin sheath

Answer 4

Myelin = insulating layer/sheath that forms around nerves

~allows electrical impulses to transmit quickly and efficiently along the nerve cells.
~If myelin is damaged, these impulses slow down

Question 5

What does the term “saltatory conduction” mean?

Answer 5

the rapid method by which nerve impulses move down a myelinated axon with excitation occurring only at nodes of Ranvier

Going from slow action potential to very fast electrical transmission to slow AP to fast ET to slow AP , back and forth

Jumping back and forth in between these 2 modes = saltatory conduction [characteristic of a myelinated axon]

textbook definition: jump of action of AP from node to node

Question 6

Describe the distribution of ions across the cell membrane at rest. How does the cell maintain a “resting potential”?

Answer 6

More potassium inside cell; more sodium outside cell

Cell maintains a resting potential with
~leak channel
~sodium potassium pump [leaky potassium pushed in, sodium kept higher outside cell]

Question 7

Where in the neuron do you find graded/local potentials?

Answer 7

in dendrites & cell bodies

Question 8

Compare and contrast the absolute refractory period and the relative refractory period.

When do they occur, what is responsible for their occurrence, and what is the effect of their occurrence?

Answer 8

Absolute RP-
-first half- stage 2 (channels open, inactive)
-2nd half- stage 3 (channels closed, inactive)
~so it is impossible to stimulate another AP bc impossible to stimulate the voltage-gated sodium channels.

Relative RP-
~sodium channel is in its active phase (1), so it is possible to produce a voltage stimulus to open the sodium channel; but also, cell is hyperpolarizing and potassium channels are open; as a consequence, any voltage applied has to overcome potassium’s effect

Question 9

5 steps of synaptic conduction

Answer 9

1) an AP depolarizes the axon terminal

2) this opens voltage-gated calcium channels and calcium enters the cell

3) calcium entry triggers exocytosis of synaptic vesicle contents

4) NT diffuses across the synaptic cleft and binds with receptors on the post synaptic cell

5) NT binding initiates response in the post-synaptic cell

Question 10

Compare and contrast the post-synaptic events of primary and second messenger systems

Answer 10

1] receptor channel
~direct or indirect channel
~most common in synapse

direct receptor: NT binds to receptive site on ion channel protein [ion channel is receptor and transporter] protein shape change and opens

indirect channel: the molecule that binds to NT is not the same protein as ion channel [G protein-coupled receptor] Alpha sub unit attaches to channel, opening it.

2] 2nd messenger
~commonly uses cAMP as 2nd messenger; cAMP relays message

Question 11

Compare and contrast receptor and synaptic potentials.

Answer 11

Receptor potentials
~All properties of graded potential, BUT they are always depolarizing
~graded potentials in dendrites

Synaptic potentials
~When AP arrives at the terminal, there is synaptic communication and a graded potential in the dendrite (this is the synaptic potential- still a graded potential).
~Can be depolarizing/excitatory [can stimulate voltage gated channels to open] [EPSP] or hyperpolarizing/inhibitory [cannot stimulu voltage gated channels to open] [IPSP]

Question 12

Compare and contrast “EPSP’ and “IPSP”.

Answer 12

2 types of synaptic graded potentials

EPSP- excitatory- depolarizing post synaptic potential
~creates a ripple effect through cell; if at initial segment, amplitude is large enough = action potential

IPSP- inhibitory- hyperpolarizing PSP
~decreases potential that other stimuli will trigger an AP

Question 13

Define “spatial summation”. Provide an example.

Answer 13

when 2 graded potentials occur at 2 different locations, they are added together at the axon hillock

Question 14

Define “temporal summation”. Provide an example.

Answer 14

a graded potential is produced, and shortly after another is produced, adding on top of the first one

[separated by time]

Question 15

What is the significance of the initial segment to summation? What is the significance of summation?

Answer 15

Electrical summation takes place at the initial segment

the deciding point about whether AP occurs or not

Question 16

_________ do the communication, integration, decision making, memory generating process in the NS

Answer 16

Neurons

Question 17

The neuron can generate:

Answer 17

a nerve impulse

[electrical signal]

Question 18

One type of nerve impulse is a graded potential; it is restricted to :

Answer 18

dendrites and cell body of the neuron and does not have transmission capability

Question 19

A type of nerve impulse, _________________, is the typical example; associated with axons down to terminals; a true transmission form of electrical change/excitation of cell

Answer 19

an action potential

Question 20

Describe the 3 signaling formats within the NS

Answer 20

cell bodies/ dendrites: graded potential

axons: action potential [rapidly travels down axon]

terminal: neurotransmitter- chemical messengers [no physical contact w/ next neuron]

Question 21

Describe the center of the neuron

Answer 21

center with nucleus
metabolic cell center = cell body/ soma

Question 22

the _______________ AKA receivers/receiving end are the input point for signals coming from other cells or from the environment

Answer 22

dendrites

Question 23

All of the information induced in the dendrites when they receive an input is relayed to

Answer 23

the cell body

> sends out the info in a single axon

Question 24

Action potentials will travel:

Answer 24

very rapidly down the length of the axon to the terminals

Question 25

Describe the basic functional divisions of the neuron.

Answer 25

Question 26

The NS has 2 main components:

Answer 26

Central NS: brain, brainstem, spinal cord

Peripheral NS: all the nerves outside of the CN

Question 27

Interneurons, AKA association neurons:

Answer 27

~enclosed within the CNS
~mostly multi-polar
~make up the majority of neurons in the NS

Question 28

Interneurons are usually structurally:

Answer 28

multipolar

Question 29

Efferent neurons are almost always structurally:

Answer 29

multipolar

Question 30

Afferent neurons are sometimes bipolar, but mostly structurally are

Answer 30

Pseudo unipolar

Question 31

The neuron is dependent on a support structure which is formed by

Answer 31

neuroglial cells

Question 32

Neuroglial cells carry out several roles allowing the neuron to be very -

Answer 32

specialized

Question 33

Neurons cannot be

Answer 33

reproduced/generated more of

Question 34

Neuroglial cells can form an association with a neuron acting like a

Answer 34

bodyguard around the neuron

Question 35

The neuroglial cell found in the peripheral NS is the

Answer 35

Schwann cell [loosely wraps, acts as a bodyguard]

Question 36

Neuroglial cells can wrap the neurons very tightly to:

Answer 36

form a myelin sheath, allowing the nueron to transmit action potentials quickly

Question 37

Neuroglial cells can form a path for the lengthening of an axon in case of :

Answer 37

axonal damage.

[If axon is damaged, neuron cannot reproduce, but it can re-grow pieces of itself]

Question 38

________________ can form a myelin sheath around more than 1 axon at the same time, creating a bridge between axons

Answer 38

Oligodendrocytes - in CNS

[CNS]

Question 39

A neuron has a resting potential of about

Answer 39

-70 Mv

Question 40

The cell maintains a higher conc. of _____1____ ions inside the cell, and higher conc. of ____2______ outside the cell

Answer 40

1- potassium
2- sodium

this leads to charge difference = resting potential

Question 41

The 2 categories of ion channels responsible for producing excitation/membrane potential changes are:

Answer 41

1- leak channels [maintains resting membrane potential]

2- gated channels [lead to change, open and close]

Question 42

3 types of gated channels are-

Answer 42

1- chemically/ligand gated channel

2- mechanically gated

3- voltage gated

Question 43

Gated channels exhibit 2 types of specificity:

Answer 43

1- specific to what moves through them
2- what specifically acts as the key to open the gate

Question 44

the myelin sheath __________ the speed that nerve impulses can be conducted

Answer 44

increases

Question 45

The multiple thin, branched structures on a neuron whose main function is to receive incoming signals are the

Answer 45

dendrites

Question 46

The resting membrane potential results from:

Answer 46

-activity of the sodium & potassium pump
-uneven distribution of ions across the cell membrane
-greater membrane permeability to K+ compared to Na+

Question 47

Neurotransmitter is released from _______1_________ into the _____________2__________

Answer 47

1- axon terminals

2-synaptic cleft

Question 48

The gap of exposed axon in the myelin sheath is the________.

Answer 48

node of Ranvier

Question 49

Based on structural classifications, which neuron types is the most common?

Answer 49

multipolar neurons

Question 50

Interneurons are distinguished by the fact that they are found

Answer 50

in the brain and spinal cord only

Question 51

Peripheral neurons that transmit nerve impulses towards the central nervous system are:

Answer 51

afferent

Question 52

Which ion(s) is/are higher in concentration inside the cell compared to outside?

Answer 52

potassium

Question 53

In a neuron at rest, potassium is _______ permeable across the membrane than sodium

Answer 53

more

Question 54

The sodium-potassium pump is actively using __________ to transport sodium and potassium ions across the membrane

Answer 54

ATP

Question 55

the __________ is the receptive end of the cell

Answer 55

dendrite

Question 56

what portion of the neuron forms sensory receptors and the portion on to which another neuron relays a message at the synapse?

Answer 56

dendrite

Question 57

Graded potentials are properties of specific ion channels -

Answer 57

[chemically/ ligand or mechanical gated channel]

Question 58

The amplitude of graded/local potentials are

Answer 58

variable [where the graded potential gets its name from]

depends on the # of chemical or mechanical gated channels that open

Question 59

Are graded potentials localized?

Answer 59

yes

[no propagation]

the stimulus is specific to a single group of channels, so only those channels open.

Question 60

the graded/local potential has a ____________ range, meaning the effect of the graded localized potential, has a ripple effect detectable at a distance, but the further away it is, the less detectable it is [detecting an electrical potential change].

Answer 60

decremental

definition- gradual decrease

Question 61

How many chemical or mechanically gated channels open determines what?

Answer 61

the amplitude of the electrical change of the graded potential

[change is localized to the site where channels open]

Question 62

If the ion that moves through the channel causes the inside of the cell to become less negative, or maybe even positive, that is called a

Answer 62

depolarizing graded potential
[excitation]- ability to generate/trigger action potential

Question 63

If the ion that moves through the channel caused the inside of the cell to become more negative, it is called

Answer 63

hyperpolarizing graded potential [becoming more polar]

[inhibitory]

~potassium/chloride channels would do this

Question 64

Graded potentials can add together, which is called

Answer 64

Summation

[2 types, spatial or temporal]

Question 65

The amplitude of the local/graded potential is proportional to-

Answer 65

the amplitude of the original stimulus that triggered the membrane channels to open

[bigger stimuli = more channels open = more ion movement across membrane = bigger amplitude grade potential— could be depolarizing or hyperpolarizing]

Question 66

The axon hillock/initial segment is the beginning of the axon and that is where graded potentials add together and serve to initiate the other form of excitation-

Answer 66

the action potential

Question 67

in dendrites and cell bodies, there are no voltage-gated ion channels, only

Answer 67

chemical and mechanical gated ion channels

Question 68

In the axon, you find _______ gated ion channels

Answer 68

voltage

Question 69

Because of the characteristic of voltage gated channels, axons produce:

Answer 69

action potentials

Question 70

Voltage-gated ion channels open in response to

Answer 70

a voltage stimulus

ex) voltage being generated by graded potential acting on the initial segment

Question 71

Once you open up a voltage-gated ion channel, it will allow ions to move across the membrane. when the ions move across the membrane, that produces a membrane potential change measured as a-

Answer 71

voltage

~large enough voltage to serve as stimulus triggering another voltage gated channel to open, can keep going, triggering more and repeating down the length of the axon.

end result = every single voltage-gated channel ends up opening each time

Question 72

The amplitude of action potentials is

Answer 72

constant [all or none]

Question 73

Action potentials are ______ ___________ , meaning once the process starts, it will keep itself going until the end, from one end of the axon to the other end.

Answer 73

self-propagating

Question 74

Once the action potential starts, it will not get any weaker with distance, it is ________________

Answer 74

non-decremental

[no reduction/decay in intensity depending on location]

Question 75

Action potentials are always :

[membrane potential]

Answer 75

depolarizing
~followed by repolarization [moves back to polarized state]

Question 76

Can action potentials summate?

Answer 76

No

[all or nothing]

Question 77

Because of _____1____, an action potential will always start with depolarization, followed by repolarization and hyperpolarization interval because of _______2_______.

Answer 77

1- sodium

2- potassium

Question 78

The frequency of action potentials is proportional to

Answer 78

the original stimulus

Question 79

Location of action potentials:

Answer 79

axons all the way down to terminals

Question 80

Location of graded potentials:

Answer 80

cell bodies and dendrites

Question 81

[stage 1 of AP] At resting membrane potential, the channel is

Answer 81

Closed

(active)- it is able to be stimulated to open by voltage stimulus

Question 82

[stage 2 of AP] When a voltage is applied, the channel will

Answer 82

open by depolarization [action potential]

inactive- it cannot respond to voltage since it is already open

Question 83

Stage 3 of action potentials; when sodium reaches the peak of diffusion, the inactivation gate :

Answer 83

swings closed

ion channels are closed [inactive] cannot respond to a voltage.

Question 84

action potentials only travel in 1 direction, they are

Answer 84

unidirectional

Question 85

The unidirectionality of action potentials is a consequence of

Answer 85

the 3 phases of the sodium channel

Question 86

The segment with a myelin sheath is called

Answer 86

an internode

Question 87

In between the myelin sheath segments is called

Answer 87

nodes of Ranvier

Question 88

During the refractory period, it is impossible or more difficult to trigger:

Answer 88

another action potential

Question 89

A graded potential will degrade with

Answer 89

distance

Question 90

action potentials occur in the :

Answer 90

axon and axon terminal only

Question 91

_______ ________ are always depolarizing

Answer 91

Action potentials

Question 92

Are action potentials all or none?

Answer 92

yes

Question 93

The absolute refractory period prevents:

Answer 93

bidirectional transmission of action potentials

temporal summation of action potentials

Question 94

Voltage gated sodium (Na+) channels have two gates (an activation and an inactivation gate) and three different states (closed/active, open/inactive, and closed/inactive). Which gate is closed during the “closed/active” state?

Answer 94

activation gate is closed

Question 95

During which time interval(s) is the neuron non-responsive to additional stimuli and incapable of producing another action potential?

Answer 95

both A and B

[absolute refractory period]

Question 96

During the relative refractory period, the stimulus required to initiate an action potential:

Answer 96

just must have a higher amplitude

Question 97

The membrane potential change during interval A is due to _______ and is called _________.

Answer 97

sodium ions diffusing into the cell

depolarization

Question 98

Action potentials convey information about the amplitude of a stimulus by:

Answer 98

action potential frequency is proportional to the amplitude of the initiating stimulus

Question 99

2 forms of synapses are

Answer 99

electrical (rare)

chemical (NTs)

Question 100

The “contact point” between one neuron and the cell its relaying a message to is the

Answer 100

synapse

Question 101

Very rarely, the synapse is electrical, meaning it is composed of

Answer 101

Gap junctions

Question 102

The main type of synapse is the

Answer 102

Chemical synapse

Question 103

Chemical synpase uses what to relay a message between one cell and the next?

Answer 103

chemical signal

[neurotransmitters for neurons]

Question 104

The bulging end of the neuron is the

Answer 104

axon terminal

Question 105

Within the axon terminal, you will find

Answer 105

vesicles filled with neurotransmitter molecules

Question 106

On the arrival of the action potential, some of the vesicles will migrate to the membrane and :

Answer 106

fuse by exocytosis, releasing NTs into the synaptic cleft space

[will diffuse across into receptors of the post synaptic cell]

Question 107

If the ion movement across the membrane is occurring in response to a chemical binding to this channel, what type of membrane potential change is produced?

Answer 107

graded potential

[chemical gated channel]

Question 108

The most common way to eliminate neurotransmitters is

Answer 108

~enzymatically break down the NT making it non-functional [enzymatic degradation]

[can also simply diffuse into the synaptic cleft]

Question 109

The portion of the pre-synaptic neuron where the exocytosis is taking place is called the

Answer 109

pre-synaptic membrane

Question 110

The portion of the post-synaptic neuron that has the actual receptors for the NT is

Answer 110

postsynaptic membrane

Question 111

NTs bind to receptors on the post-synaptic membrane, and this causes attached ion channels to open; This may __________________ the receiving cell

Answer 111

excite or inhibit

Question 112

In the post-synaptic cell, the receptors, ligand-gated channel, and the enzyme can all be-

Answer 112

one single protein that serves all 3 purposes

or can each be a different protein working together

Question 113

After the action potential is gone, it will need to :

Answer 113

turn off the signal at the synapse

Question 114

EPSP is a response to a stimulus where the membrane potential shifts upwards towards:

Answer 114

threshold (making it excitatory)

if reaches threshold, AP is triggered

Question 115

IPSP will result in drop in membrane potential, moving :

Answer 115

further away from threshold

Question 116

graded potentials can summate to produce

Answer 116

bigger amplitude/voltage changes measured as graded potentials

Question 117

Spacial summation - 2 neurons are both stimulating post synaptic cell at :

Answer 117

2 different locations at the same time

= action potential

Question 118

Temporal summation - one graded potential occurs, and the next one :

Answer 118

piggybacks off the first one, hitting threshold and leading to an action potential

Question 119

spatial summation of IPSP and EPSP produces

Answer 119

a smaller amplitude graded potential bc they cancel each other out

Question 120

Describe the sequence of membrane permeability changes that occur through the complete course of an action potential beginning with the stimulus that initiates it

Answer 120

1- resting membrane potential

2-depolarizing stimulus

3- membrane depolarizes to threshold; voltage gated K and Na channels start to open

4- rapid Na entry depolarizes cell

5- Na channels close; slower K channels open

6- K moves from cell to extracellular fluid

7- K channels remain open and more K leaves cell > hyperpoarizing cell

8- Voltage gated K channels close, less K leaks out cell

9- cell returns to resting membrane potential

Question 121

Where are “leak” channels found and what is their significance?

Answer 121

leak channels are found throughout the neuronal membrane

allow potassium and sodium to leak in such a way that maintains resting potential.

~essential for establishing & maintaining resting membrane potential

~role is to allow the passive movement of ions, particularly potassium, to counteract any changes in membrane potential and help keep the neuron in a state of readiness for generating action potentials when needed

Question 122

Which of the following determines the “content” of the synaptic message – the identity of the neurotransmitter or the receptor? Explain.

Answer 122

Receptor

1. having or not having a receptor [if no receptor, no message]
2. which transduction pathway is triggered—depends on which kind of channel is connected to the receptor.

Question 123

Describe how the location of an applied stimulus and its identity are determined by the nervous system

Answer 123

NS determines the location of an applied stimulus by analyzing the activation of specific sensory receptors and their respective locations in the body.

~ ex) touch receptor: each receptor in a unique location, has a discrete pathway that ends in a unique termination point in the brain

location: continuity between receptor and specific region of the brain
which receptors are stimulated?

identity of stimulus : which receptor responds

Question 124

How is the intensity of a stimulus represented by the nerve impulse within the dendrites and cell body, within the axon, and across the synaptic cleft?

Answer 124

the intensity of a stimulus is represented by

~the strength of graded potentials in the dendrites and cell body

~the frequency of action potentials in the axon,

~quanity of NT the synapse.

Question 125

Stimulus strength is proportional to the amplitude of the :

Answer 125

graded potential

Question 126

stimulus amplitude is proportional to the frequency of the :

Answer 126

action potential

Question 127

Calcium channels in the axon terminal allow calcium ions into the terminal in response to arrival of :

Answer 127

an action potential at the axon terminal

Question 128

The mechanism of action of neurotransmitters in the synaptic cleft is the same as the mechanism of action of cellular signals described in the cell signaling section of the course.

True or false?

Answer 128

true

Question 129

When two different neurons (E1 and E2) synapse on a single postsynaptic neuron and simultaneously stimulate the postsynaptic neuron, the result is called:

Answer 129

spatial summation

Question 130

Neurotransmitters are released from the presynaptic cell by _______ in response to influx of _______ into the axon terminal

Answer 130

exocytosis; calcium ions

Question 131

Both of the terms “receptor potential” and “postsynaptic potential” name types of:

Answer 131

graded potentials.

Question 132

When a single neuron (E1) synapses on a postsynaptic neuron and stimulates the postsynaptic neuron multiple times in a row, the result is called:

Answer 132

temporal summation

Question 133

The final integration of postsynaptic potentials that determines whether an action potential is generated occurs within what region of a neuron?

Answer 133

initial segment

Question 134

agonist VS antagonist

Answer 134

agonist: molecule that enhances/mimics the effects of NT when it binds to receptor.

In the context of synapses/receptors, an agonist increases the response initiated by the NT

antagonist: molecule that inhibits/ blocks the effects of a NT when it binds to receptor.

In the context of synapses/receptors, an antagonist decreases/prevents the response initiated by the NT

Question 135

_______________ form myelin sheath in the CNS

Answer 135

oligodendrocytes

Question 136

____________ form myelin sheath in the PNS

Answer 136

Schwann cells