Exam 2

Question 1

What is a chemical synapse?

Answer 1

Presynaptic terminals release neurotransmitter molecules and these molecules activate receptors in the post-synaptic membrane

Question 2

What is synaptic release?

Answer 2

A series of electrical and biochemical events that occur in the:
1- Presynaptic neuron
2- the synaptic cleft
3- the postsynaptic neuron

Question 3

Who was one of the first scientists to investigate the Presynaptic event that triggers the release of neurotransmitters?

Answer 3

Bernard Katz

Question 4

What cell did Katz use to study Presynaptic release?

Answer 4

The giant axon of the squid

Question 5

What are the two different types of recordings that Katz made to study Presynaptic release?

Answer 5

1) electrodes were used to record the membrane potential in the pre- and post- synaptic neurons

2) another electrode was used to inject current in the Presynaptic neuron.

Question 6

In Katz experiments, what happened when Enough current was injected into his system?

Answer 6

1) the Presynaptic & postsynaptic neuron responded with an action potential.

Question 7

What happened when Katz added the toxin tetrodotoxin (TTX)?

Answer 7

This toxin blocks sodium voltage gated channels, so after a few seconds the pre- and post- synaptic action potentials decreased in amplitude.

Question 8

What happened to the pre and post synaptic neurons after a few minutes in the presence of TTX?

Answer 8

1) the Presynaptic neuro is able to produce a Supra threshold potential

2) the post synaptic neuron responded with an EPSP (excitatory postsynaptic potential.

Question 9

What happened after about 15 minutes in Katz’ synaptic release experiment?

Answer 9

1) the Presynaptic neuron can only produce a potential a Supra threshold potential that correlates with the current injected.

2) the post synaptic neuron was unable to produce a detectable EPSP.

Question 10

What is synaptic transmission?

Answer 10

The process whereby a neuron communicates with another cell (can be a neuron or muscle cell)

Question 11

What is a synapse?

Answer 11

A specialized structure at which one neuron communicates with another cell.

It is the point of contact.

Question 12

Who coined the term synapse?

Answer 12

Charles Sherrington

Question 13

How many neurons does the human brain have?

Answer 13

86 billion

Question 14

Approximately how many synapses are there in the human brain?

Answer 14

8.6 x 10^13

(More than there are starts in our galaxy (10^11))

Question 15

When a neuron communicates with another cell, which way does the information travel?

Answer 15

From the pre-synaptic cell to the post synaptic cell.

Question 16

Based on the zone of apposition, synapses can be categorized into two types. What are the?

Answer 16

1. Chemical
2. Electrical.

Question 17

How are electrical synapses used?

Answer 17

They are used mostly to generate rapid and stereotyped depolarizing signals.

Question 18

How are chemical synapses used?

Answer 18

They are capable of variable signaling:

1) they can mediate either excitatory or inhibitory signals

2) they can mediate changes in the electrical properties of the post synaptic cell.

These changes can last from milliseconds to minutes.

Question 19

Communication in the brain mostly relies on what type of synapses?

Answer 19

Chemical synapses.

Question 20

Where does most of our knowledge of the chemical synapse come from?

Answer 20

The neuromuscular junction

Question 21

What is the neuromuscular junction?

Answer 21

The synapse between a neuron and a skeletal muscle cell

Question 22

Who Introduced the notions of ligands and its receptor?

Answer 22

Paul Ehlrich

Question 23

Who discovered Acetylcholine?

Answer 23

Otto Löwie- he discovered that it conveys signals from the Vegus nerve to the heart.

Question 24

what were the two schools of thought regarding synaptic transmission and who lead each of them?

Answer 24

1. Physiologists - led by John Eccles
2. Pharmacologists - led by Harry Dale

Question 25

What did the physiologists believe regarding synaptic transmission?

Answer 25

They thought it was electrical. That the action potential in the Presynaptic neuron generates a current that flows passively into the post-synaptic cell.

Question 26

What did the pharmacologists believe regarding synaptic transmission?

Answer 26

That it was chemical. The action potential in the Presynaptic cell Leads to the release of a chemical substance that initiates a current in the post synaptic cell.

Question 27

Compare and contrast electrical and chemical synapses in the following ways:

1- Pre and post synaptic cell distance

2- cytoplasmic continuity between pre and post synaptic cells.

3- ultra structural components

4- agent of transmission

5- synaptic delay

6- direction of signal transmission

Answer 27

1- Pre and post synaptic cell distance:
Electrical = very short. ~4 nm
Chemical- much larger. Usually 20-40 nm

2- cytoplasmic continuity between pre and post synaptic cells.
Electrical= yes
Chemical = No

3- ultra structural components
Electrical = continuous through gap junctions
Chemical = Presynaptic vesicles, active zones, postsynaptic receptors.

4- agent of transmission:
Electrical = ion current
Chemical = Chemical transmitter

5- synaptic delay:
Electrical = virtually absent
Chemical = Significant. At least 0.3 ms but usually 1-5 ms or longer.

6- direction of signal transmission:
Electrical = usually bidirectional
Chemical = Unidirectional

Question 28

True/false: when the outward current of a Presynaptic neuron is strong enough, some of that current can flow through the gap junction channels to the post synaptic cell.

Answer 28

True

Question 29

True/false: if the Presynaptic current is sufficient to depolarize the postsynaptic neuron above threshold, then voltage gated ion channels will generate a action potential in the postsynaptic cell.

Answer 29

True

Question 30

I. Order for the Presynaptic neuron in an electrical synapse to generate a current large enough to depolarize both the pre and post synaptic neurons, what two morphological criteria must be met?

Answer 30

1) the Presynaptic terminal must be large enough to house a large number of ion channels

2) the postsynaptic neuron must be small enough such that it can be depolarized by the current coming through the gap junction channels.

Question 31

In order to study the electric synapse, Furshpan and potter used the _________system from crayfish

Answer 31

Giant motor synapse

Question 32

In the giant motor synapse in crayfish, the [Presynaptic/postsynaptic] _______ is the lateral giant fiber and the [Presynaptic/postsynaptic] ________ is a smaller motor fiber.

Answer 32

1. Presynaptic
2. Postsynaptic

Question 33

To study the electrical synapse, Furshpan and potterused a pair of electrodes: one was used to _______ and the other was used to record___________.

Answer 33

1) inject a current

2) the membrane potential

Question 34

Furshpan and Potter observed that the time between the Presynaptic spike and the postsynaptic potential is very short. The time between the two spikes is called———-

Answer 34

Synaptic delay

Question 35

True/false: gap junctions are always open

Answer 35

False. They can open or close

Question 36

What are gap junction channels?

Answer 36

Specialized membrane proteins that conduct ionic currents.

Question 37

Gap junctions consist of a pair of__________channels ( one on each cell) to create a _________between the Presynaptic and postsynaptic neurons

Answer 37

Hemi-

Pore

Question 38

How many connexin subunits form a hemi-channel?

Answer 38

Six

Question 39

Six _________subunits form each _________

Answer 39

1) connexin

2) hemi-channel

Question 40

What do gap ion channels allow for?

Answer 40

Synchrony between circuits

Question 41

Cells that are coupled generally have [higher/lower] thresholds.

Answer 41

Higher

Question 42

Once the threshold is reached, electrically coupled cells fire ____________because__________

Answer 42

1) synchronously

2) the currents generated in one cell are rapidly conducted to another

Question 43

What are brain waves?

Answer 43

Rhythmic activity patterns that a probably driven by electrical synapses

Question 44

What is the function of brain waves?

Answer 44

Their function, if any, is unknown

Question 45

What are the five types of brain waves?

Answer 45

1. Alpha
2. Beta
3. Gamma
4. Delta
5. Theta

Question 46

When are alpha brain waves detected?

Answer 46

They are detected during relaxed states. (Relaxation, reflection)

Question 47

When are beta waves detected?

Answer 47

During alert working states (concentration, learning)

Question 48

When ate delta waves detected?

Answer 48

During deep dreamless sleep (deep healing sleep)

Question 49

When are theta waves detected?

Answer 49

During light sleep and deep meditative states (dreaming, flow states)

Question 50

When are gamma waves detected?

Answer 50

Believed to underlie heightened perception. (Insight, expanded consciousness)

They have been recorded in Tibetan Buddhist monks during transcendental mental states.

Question 51

In a chemical synapse, how many vesicles can a Presynaptic terminal contain?

Answer 51

100-200 synaptic vesicles

Question 52

True/false: synaptic vesicles cluster at the active zone.

Answer 52

True

Question 53

What is the active zone in a chemical synapse?

Answer 53

A specialized structure in the Presynaptic terminal.

Question 54

Synaptic vesicles are filled with_________

Answer 54

Several thousand neurotransmitter molecules

Question 55

In a chemical synapse, what causes voltage gated Ca++channels to open?

Answer 55

The Presynaptic action potential

Question 56

What happens when the Ca++ channels open?

Answer 56

Ca++ flows inside the Presynaptic zone

Question 57

In a chemical synapse, what happens when intracellular Ca++ rises?

Answer 57

It triggers a biochemical reaction that causes the vesicles to fuse with the Presynaptic membrane.

Question 58

In a chemical synapse, what happens when synaptic vesicles fuse to the Presynaptic membrane ?

Answer 58

Neurotransmitters are released into the synaptic cleft.

Question 59

In a chemical synapse, what happens when neurotransmitter molecules diffuse across the synaptic cleft?

Answer 59

They bind and activate their cognate receptors.

Question 60

In a chemical synapse, what happens when a receptor on the post synaptic cell is activated?

Answer 60

It leads to an opening or closing of ion channels which affect membrane conductance and potential of the postsynaptic neuron.

Question 61

In a chemical synapse what accounts for its longer synaptic delay?

Answer 61

Influx of ca++ to cause vesicles to fuse with the membrane

Release of and diffusion of the neurotransmitter across the synaptic cleft

Neurotransmitter binding and activating their receptor.

Question 62

If the neurotransmitter receptor is a Na+ ion channel, will the postsynaptic neuro depolarize or hyperpolarize in response to neurotransmitter release?

Answer 62

Depolarize

Question 63

If the neurotransmitter receptor is a Cl- ion channel, will the postsynaptic neuron depolarize or hyperpolarize in response to neurotransmitter release?

Answer 63

Hyperpolarize

Question 64

A neurotransmitter can be ________ or _________ depending on the nature of its post synaptic receptor.

Answer 64

Excitatory or inhibitory

Question 65

What two biochemical features to all neurotransmitter receptors have in common?

Answer 65

1) they are membrane proteins: these receptors have an extra cellular domain that binds to the neurotransmitter.

2) they have an effector function.

Question 66

Ionotropic neurotransmitter receptors do what?

Answer 66

Have a direct function, for e.g. opening or closing an ion channel

Question 67

Metabotropic receptors do what?

Answer 67

Have an indirect function, e.g. the production of secondary messenger molecule.

Question 68

The Acetylcholine receptor is an example of what kind of receptor (ionotropic or metabotropic)?

Answer 68

Ionotropic

Question 69

Ionotropic receptors (gate ion channels directly are composed of how many subunits?

Answer 69

4 to 5

Question 70

For Ionotropic proteins which domain forms the ion conducting pore

Answer 70

The trans membrane domain

Question 71

For Ionotropic receptors, the binding site is located on wheat domain?

Answer 71

The extra cellular domain

Question 72

What happens to an Ionotropic receptor when it’s neurotransmitter binds?

Answer 72

The receptor undergoes conformational changes that lead to the opening of the gate.

Question 73

How many subunits do metabotropic receptors (receptors that gate ion channels indirectly, e.g. G protein coupled) have?

Answer 73

One or two subunits

They are distinct from the ion channel they regulate

Question 74

How do metabotropic receptors act?

Answer 74

By altering intracellular metabolic reactions and stimulating the production of secondary messengers.

Question 75

What are second messager molecules?

Answer 75

Small freely diffused molecules such as cAMP or diaglycerol.

Question 76

True /false: many secondary messengers activate protein kinases which in turn phosphorylate phosphorylation gated channels

Answer 76

True

Question 77

True/false: some neurons release neuromodulator molecules

Answer 77

True.

Question 78

Neuromodulators act through what kind of receptor (Ionotropic or metabotropic)

Answer 78

Metabotropic

Question 79

What is a major advantage of a chemical synapse over an electrical synapse?

Answer 79

Amplification

Question 80

What is the property of amplification?

Answer 80

The release of just one synaptic vesicle is sufficient to release several thousand molecules of neurotransmitter, which can open thousands of ion channels.

Thus, a small Presynaptic nerve terminal- which can only generate a weak electric current, can depolarize a large synaptic cell.

Question 81

True/false: the neuromuscular junction is the most studied synapse.

Answer 81

True

Question 82

Where does the motor neuron innervate a muscle fiber?

Answer 82

At the end plate

Question 83

Does a motor neuron have a Mylin sheath at the end plate?

Answer 83

No

Question 84

True/false: a motor neuron splits into fine branches at the end plate.

Answer 84

True

Question 85

The motor neuron fine branches form multiple ___________

Answer 85

Synaptic boutons

Question 86

In motor neurons acetylcholine is released from these structures_____

Answer 86

Synaptic boutons

Question 87

True/false: synaptic boutons contain vesicles filled with acetylcholine, the calcium channels and the regulators of synaptic vesicle release.

Answer 87

True

Question 88

What is the junctional fold?

Answer 88

It is a specialized region of the muscle membrane which contains the nicotinic acetylcholine receptor

Question 89

In the neuromuscular junction synaptic cleft , acetylcholinesterase is an enzyme that does what?

Answer 89

Hydrolysis acetylcholine

Question 90

In the neuromuscular junction, the motor neuron action potential which triggers the release of acetylcholine, which then binds to the receptor on the muscle cell generates an _________current that depolarizes the muscle cell.

Answer 90

Inward

Question 91

What is an EPSP?

Answer 91

An excitatory postsynaptic potential

Question 92

In the neuro muscular junction, EPSPs are large, being about ________mV

Answer 92

70 mV.

This is much larger than EPSPs normally generated by the neurons in the brain

Question 93

In the neuromuscular junction, EPSPs rapidly activate ________ inducing an_________ which then propagates along the muscle fiber inducing_____.

Answer 93

Voltage gated na+ channels

Action potential

Contractions

Question 94

In what ways are muscle fiber action potentials similar to and different than action potentials seen in neurons?

Answer 94

Similarities:
The muscle fiber AP has a rising phase from the opening of the voltage gated sodium channels and a falling phase from the opening of K+ channels.

Differences:
The riding phase is steep, but The shape of the falling phase is prolonged in muscle fibers,

  It has no hyperpolarization phase

  It lasts a long time:  from 2-4 ms

   The resting potential of the muscle fiber is typically-90 mV which is more negative than the resting potential of most neurons

Question 95

Katz and fatts studied the end plate potential by isolating it from the action potential by using ______ which is a weak inhibitor of the acetylcholine receptor.

Answer 95

Curare

Question 96

In investigating the end plate potential, Katz and fatts found that_______

Answer 96

The opening of all acetylcholine receptor channels is required to generate action potential in the muscle.

Question 97

According to Katz and fatts experiment, a reverse potential of 0 mV means___\

Answer 97

The acetylcholine receptor is not selective and is permeable to both na and k. The fluxed cancel reach other

Question 98

The acetylcholine receptor differs from voltage gated channels as it has a much larger pore that can accommodate ______

Answer 98

Cations such as Na, K end Ca

Question 99

Katz and fatts postulated that the rapid rise of the endplate potential might be from———-

Answer 99

The sudden release of acetylcholine into the cleft .

Question 100

Katz and fatts postulated that the slow decay of the endplate potential might be from———-

Answer 100

The removal of acetylcholine from the cleft following hydrolysis by the enzyme acetylcholinesterase

Question 101

How do acetylcholine receptors differ from voltage gated channels? (3 Of them)

Answer 101

1. The acetylcholine receptor is ligand gated (not voltage gated) . The number of acetylcholine channels open depends on the number of acetylcholine molecules available not on membrane potential
2. The acetylcholine receptor is not selective for particular cation species. Instead it is permeable to na, k and ca ions . Voltage gated channels are selective
3. The acetylcholine receptors and voltage gated channels belong to different gene families.

Question 102

How many subunits make up the acetylcholine receptor?

Answer 102

5

Question 103

How many binding sites does the acetylcholine receptor have?

Answer 103

2

Question 104

True/false: both sites of the acetylcholine channel need to be occupied for the channel to open.

Answer 104

True

Question 105

True/false: one miter neuron can innervate different muscles.

Answer 105

True.

Question 106

True/false: in mammals muscle fibers are innervated by a single neuron

Answer 106

True

Question 107

What is a connectome?

Answer 107

A comprehensive map of the neutral connections in a brain

Question 108

What is the goal of connectomics?

Answer 108

To map all the synapses making a brain

Question 109

Why is the neuromuscular junction a helpful system to study synaptic integration?

Answer 109

Most muscle fibers are connected to a single motor neuron. (Interneurons can receive from a few up to 200,000 inputs)

Muscle fibers receive only excitatory input (most interneurons receive both excitatory and inhibitory inputs)

End plate potentials are mediated by a single neuro transmitter- acetylcholine- to one receptor - the acetylcholine gated channel. (In the brand there are many neuro transmitters.

Question 110

What is the function of the brain?

Answer 110

Information integration

Question 111

True/false: the neuromuscular junction is an efficient synapse.

Answer 111

True

One action potential is is sufficient to generate an action potential in a muscle fiber.

Question 112

True/false: synapses in the brain are not so efficient

Answer 112

True:

Several action potentials need to be simultaneously generated in as many as 50 to 100 of the Presynaptic neurons for an action potential to be generated in the post synaptic neuron.

Question 113

Why are synapses in the brain inefficient?

Answer 113

Redundancy. So if lose a neuron the impact is minimized.

Question 114

What are the differences between the synapse at the neuromuscular junction and other synapses?

Answer 114

Neuromuscular junction synapse:
- the muscle fiber is innervated by a single axon, and therefore only integrates one input.

• muscle fibers only receive excitatory inputs
• synaptic action is mediated by one type of neurotransmitter— Acetylcholine
• a single action potential in one motor neuron is sufficient to generate an action potential

—————_
Other synapses:

• the post synaptic cell - a neuron- is connected to many axons and therefore integrates several inputs across different types of neurons.
• most neurons receive excitatory and inhibitory inputs
• synaptic action is mediated by different types of neurotransmitter binding to different receptors.
• multiple excitatory neurons must fire together to generate an action potential in the postsynaptic neuron.

Question 115

What is an antagonistic muscle pair?

Answer 115

When one muscle contracts, the other relaxes (eg biceps/triceps)

Question 116

Antagonistic muscle pair circuits consist of both ______ and ______ synapses.

Answer 116

Excitatory and inhibitory

Question 117

In antagonistic muscle pairs, IPSPs are generated by an ______ interneuron.

Answer 117

Inhibitory

Question 118

In antagonistic muscle pairs, the sensory neuron is connected to the extensor _____ neuron innervating the extensor muscle and an _________ interneuron

Answer 118

Motor

Inhibitory

Question 119

The activation of a extensor motor neuron requires the simultaneous activation of many ______neurons

Answer 119

Sensory

Question 120

Antagonistic action of antagonistic muscle pairs depends on the ability of the motor neuron to ____________ excitatory and inhibitory inputs

Answer 120

Integrate

Question 121

True/false: purkinje neurons receive as many as 200,000 inputs- and thus generate action potentials most of the time.

Answer 121

True

Neurons located in the cerebellum

Question 122

True/false: without inhibitory input, a neuron fires continuously at a fixed interval

Answer 122

True

Question 123

True/false: with inhibitory input, some action potentials are inhibited. This results in a distinct pattern of activity

Answer 123

True

Question 124

True/false: information can be encoded by inhibition.

Answer 124

True

Question 125

How can information be encoded by inhibition?

Answer 125

IPSPs sculpt the pattern of firing in neurons that fire spontaneously at a given interval

Question 126

Besides chemical and electrical synapse, how else can synapse be distinguished?

Answer 126

The whether they are excitatory or inhibitory

Question 127

Whether a given neurotransmitter generates an excitatory or inhibitory current depends on_________

Answer 127

The type of ligand gated channels found in the postsynaptic terminal.

Question 128

Generally glutamate generates (excitatory or inhibitory) _________ currents.

Answer 128

Excitatory

Question 129

Generally glycine and GABA produce (excitatory or inhibitory) currents.

Answer 129

Inhibitory

Question 130

True/false: the synaptic terminals of excitatory and inhibitory neurons are morphologically distinguishable.

Answer 130

True:

Question 131

Terminals if excitatory and inhibitory neurons are referred to as either _______

Answer 131

Gray type 1 or gray type 2 synapses.

Question 132

What are the anatomical creatures of gray type 1 synapses. (4)

Answer 132

1. The synapses have asymmetrical membrane differentiations (there is a dark electron dense region at the active zone of the Presynaptic membrane and an even larger one on the post synaptic membrane
2. They have round vesicles
3. They usually contact specialized regions on the dendrite called the spine
4. They are often glutamatergenic and thus excitatory

Question 133

What are the anatomical creatures of gray type 2 synapses. (4)

Answer 133

1. They have symmetrical membrane differentiations.
2. The have oval or flattened vessicles
3. They do not contact spines. Instead they contact the shaft of a dendrite or cell body
4. They are often GABAergic and therefore inhibitory