Week 5 Ch. 3 Lecture

Question 1

How are NT released to synaptic cleft?

Answer 1

The shift in positivity from the Na+ AP runninging down the axon causes vesicles in the terminal buttons containing neurotransmitter to move to end of terminal branch and the membrane of vesicle will fuse with the terminal membrane and release the neurotransmitters into the synatic cleft.

Question 2

Where is the motor cortex found

Answer 2

frontal lobe

Question 3

Role of astrocytes

Answer 3

• Has extensions that support the neurone and help hold it in place.
• axon guidance and synapse support
• Plays a role in providing nutrients and supports blood brain barrier.
• Helps surround capillaries and further protecting the brain from other substances getting in.
• May also play a role in mediating communication in the nervous system.

Question 4

What is Prosopagnosia

Answer 4

face blindness - unable to recognize faces due to dysfunction of fusiform face area

Question 5

What is an action potential?

Answer 5

brief shift in electrical charge that travels along the axon

Question 6

What might damage to one side of parietal lobe cause?

Answer 6

hemineglect

Question 7

Name the parts of the neuron

Answer 7

Question 8

Where is lymbic system found

Answer 8

Medial temporal lobe’s

Question 9

Why is it important for NT to be deactivated?

Answer 9

When NT have done there job after binding to receptor they are released to synaptic cleft but they could bind again which could overstimulate the post synaptic neuron and decreases performance of synaptic cleft, so need to clear up the NT thar have been released to the cleft.

Question 10

what primary message carrier between the brain and body?

Answer 10

spinal chord

Question 11

what are the three major parts of the brain?

Answer 11

• Forebrain
• Midbrain
• Hindbrain

Question 12

Describe the receptors on the post synaptic membrane

Answer 12

ion channel proteins embedded in the post synaptic membrane have receptor sites that allows specific neurotransmitters the bind to their site which alters the flow of ions in and out of the post synaptic membrane

Question 13

What are the four sections of the cerebral cortex?

Answer 13

• frontal lobe
• occipital lobe
• parietal lobe
• temporal lobe

Question 14

What is the resting potential of nerve conduction?

Answer 14

-70mV

Question 15

Gluteus

Gabby

Aced the

End

Service

Nore

Doped it

Answer 15

Glutamate (glutamic acid)

GABA (gamma-aminobutyric acid)

Acetylcholine (ACh)

Norepinephrine

Serotonin

Dopamine

Endorphin

Question 16

What happens when sodium passively enters the neuron through its channels?

Answer 16

increases the positive voltage inside the neuron

Question 17

pseudo unipolar neuron function?

Answer 17

They are sensory neurons. The ones found in the dorsal root ganglia, and majority of those in cranial nerve sensory ganglia carry information about touch, vibration, proprioception, pain and temperature to spinal chord for immediate reaction and also carry up to brain for processing.

Question 18

What are some disorders associated with malfunctioning endorphin?

Answer 18

• oversupply: insensitivity to pain
• undersupply: pain hypersensitivity; immune problems

Question 19

How does have myelin make nerve conduction faster?

Answer 19

This is faster because Na+ dissipates under myelin sheath to the nodes of ranvier must faster than what it would take for the channels to open if there was no myelin.

Question 20

which neurotransmitters are inhibitory?

Answer 20

• GABA
• serotonin
• endorphin

Question 21

What are the key ions in nerve conduction?

Answer 21

• Na+
• K+
• somewhat A-

Question 22

what are disorders associated with malfunctioning serotonin?

Sir Rotten

Answer 22

depression & sleeping and eating disorders

Question 23

Describe the sodium-potassium pump

Answer 23

embedded in the membrane and require energy to pump out 3 Na+ and bring in 2 K+ - brings neuron back to resting potential

Question 24

Role of microglial cells

Answer 24

• They remove damaged neurons and infections and are important for maintaining the health of the CNS.
• Gets rid of waste materials by engulfing them.

Question 25

Describe the sympathetic nervous system

Answer 25

• Generally activates
• Fight or flight response
• Asked to prepare the body for stressful situation Engaging all the systems organisms resources to respond to the threat

Question 26

What is the major function of dopamine?

Answer 26

• inhibitory and excitatory
• invovled in voluntary movement, emotional arousal, learning, motivation, experiencing pleasure

Question 27

Describe saltatory conduction

Answer 27

The propagation of action potentials along myelinated axons from one node of Ranvier to the next node, increasing the conduction velocity of action potentials.

Question 28

Describe the terminal buttons

Answer 28

The small knobs at the end of an axon that release chemicals called neurotransmitters. The terminal buttons form the Presynaptic Neuron of the synapse

Question 29

How does Cl- moving into the post synaptic neuron alter its voltage?

Answer 29

Cl- moving into internal space of the post synaptic neuron will cause further decrease in the internal voltage and as it dissipates to the beginning of the axon it will decrease the likelihood the threshold to be acheived for an AP to occur due to depolarization.

Question 30

Temporel lobe function

Answer 30

• hearing
• processing speech and comrehending language
• recognizing faces
• memory
• emotion

Question 31

Myelin sheath function

Answer 31

• This myelin sheath allows electrical impulses to transmit quickly and efficiently along the nerve cells

Question 32

What is the major function of glutamate?

Good Mate

Answer 32

• Excitatory
• found throughout all the brain
• Involved in the control of all behaviours, especially important in learning and memory

Question 33

When does the voltage change from -70mV to +40mV?

Answer 33

At the site where sodium ions rush in to the interior of the cell passivelt through their channels and cause a significant increase in the positiviely interiorly

Question 34

Why is the inside of a neuron more negative?

Answer 34

The concentration of Na+ is greater on the outside than that of the K+ concentration on the inside.

Question 35

Describe the synaptic cleft

Answer 35

microscopic gap between pre-and-postsynaptic neurons; terminal button and dendrites respectively.

Question 36

What are the three primary types of neurons?

Answer 36

• motor neurons
• sensory neurons
• inter-neurons

Question 37

Which neurtransmitters are excitatory?

Answer 37

• glutamate
• Acetylcholine

Question 38

What parts make up the hindbrain?

Answer 38

• medulla
• pons
• cerebellum

Question 39

Name given to neuron recieving NT

Answer 39

postsynaptic neuron

Question 40

Which ions cause excitatory post synaptic potential?

Answer 40

Na+ causing depolarization

Question 41

Where is the prefrontal cortex found

Answer 41

frontal lobe

Question 42

What is the major function of GABA?

Answer 42

• Inhibitory
• found throughout the brain
• involved in controlling all behaviours; especially important in anxiety and motor control

Question 43

What is the action potential of nerve conduction called?

Answer 43

depolarization

Question 44

What are some disorders associated with malfunctioning GABA?

ABBA

Answer 44

Destruction of GABA producing neurons in hungtingtons disease produces tremors and loss of motor control as well as personality changes

Question 45

Which ions cause inhibitory post synaptic potential?

Answer 45

K+ & Cl- causing hyperpolarization

Question 46

What disorders are associated with malfunctioning ACh?

A

Answer 46

• undersupply: memory loss in Alzheimers disease
• oversupply: muscle contractions; convulsions

Question 47

In the nerve conduction when is the neuron in hyperpolarization?

Answer 47

absolute refractory period

Question 48

Describe the peripheral system

Answer 48

• Made up of neurons with long axons and dendrites
• Branches out from the spinal cord and the brain to reach the extremities of the body

Question 49

What pump is used in nerve conduction?

Answer 49

sodium-potassium pump

Question 50

Describe the myelin sheath

Answer 50

• Insulating layer, or sheath that forms around nerves, including those in the brain and spinal cord.
• It is made up of protein and fatty substances.

Question 51

Describe summation

Answer 51

is the process that determines whether or not an action potential will be generated by the combined effects of excitatory and inhibitory signals, both from multiple simultaneous inputs, and from repeated inputs

Question 52

The 2 parts of the nervous system

Answer 52

• central nervous system
• peripheral nervous system

Question 53

What are the steps in nerve conduction?

Answer 53

Question 54

What is the permability of an neuron membrane?

Answer 54

selectively permeable

Question 55

How are NT deactivated?

Answer 55

• Chemical breakdown from enzymes present in synaptic cleft
• recycles due to reuptake into presynaptic terminal membrane where it is once again stored in vesicle to be released when AP comes.

Question 56

What type of model is the NT and receptor sites?

Answer 56

lock & key model

Question 57

describe the absolute refractory period

Answer 57

A period where it is completely impossible for another action potential to be activated, regardless of the size of the trigger (stimulus). This is because the sodium channels are inactivated and remain that way until hyperpolarisation occurs to allow Na+ to dissipate down the axon and let the sodium-patassium pump serve its purpose.

Question 58

Describe the parasympathetic nervous system

Answer 58

• Generally inhibits
• Maintaining normal functions
• Asked to call nobody after emergency a stressful situation has ended

Question 59

What are some disorders associated with malfunctioning dopamine?

Answer 59

• undersupply: parkinsons disease and depression
• oversupply: schizophrenia

Question 60

What is the function of the autonomic nervous system?

Answer 60

• Controls smooth muscles cardiac muscles and glands
• Basically involuntary muscle movements

Question 61

What are the 4 types of glial cells?

Answer 61

• astrocyte
• microglial cell
• oligodendrocytes
• ependymal cells

Question 62

Role of Ependymal cells

Answer 62

• Found mostly in ventricles
• help filter blood
• manufacture and regulate cerebral spinal fluid (CSF) which provide nutrient to CNS and some cushioning.
• Bathes the brain and spinal chord in protective layer.

Question 63

How does Na+ moving into the post synaptic neuron alter its voltage?

Answer 63

Depolarizes the post synaptic neuron by increasing the positivity of voltage inside and bringing some postivity with it as it dissipates towards the axon start making it more likely to achieve the neccessary threshold for an AP to occur at the start if the axon.

Question 64

parietal function

Answer 64

• sensory touch info
• visual attention
• spatial reasoning

Question 65

How does the AP move down the axon?

Answer 65

If -55mV threshold is met, a sodium channel at that threshold position will open and Na+ ions will rush in a dissipate down the axon increasing the positivity in the direction it moves so as to open sodium channels as it moves down the axon, and K+ channels, and process goes all the way to terminal buttons.

Question 66

What messages to sensory neurons carry?

Answer 66

Messages to the CNS

Question 67

describe temporal summation

Answer 67

occurs when voltage runs down one dendrite of post synaptic neuron many times over a period of time.

Question 68

Describe a pseudo-unipolar neuron

Answer 68

Type of neuron which has one extension from its cell body. This type of neuron contains an axon that has split into two branches; one branch travels to the peripheral nervous system and the other to the central nervous system. Cell body exists in dorsal roots just outside of spinal chord.

Question 69

motor cortex function

Answer 69

Control over goal directed movements

Question 70

What is the shift of voltage during an AP?

Answer 70

from -70mV to +40mV

Question 71

Occipital lobe function

Answer 71

• vision
• specialized for: colour, shape, movement

Question 72

What is the disorder associated with a dysfunctioning basil ganglia?

Answer 72

parkinsons

Question 73

What are the 2 forms of summation?

Answer 73

• temporal summation
• spatial summation

Question 74

What ions are the protein channels specific to on the post synaptic membrane?

Answer 74

• Na+
• K+
• Cl-

Question 75

multipolar neuron function

Answer 75

Constitute the majority of neurons in the central nervous system. They include motor neurons and interneurons/relaying neurons are most commonly found in the cortex of the brain and the spinal cord. Peripherally, multipolar neurons are found in autonomic ganglia.

Question 76

Which neurotransmitters can be both excitatory and inhibitory?

Answer 76

Dopamine and Norepinephrin

Question 77

What is the major function of endorphin?

Answer 77

inhibits transmission of pain impulses

Question 78

Describe multipolar neurons

Answer 78

Possesses a single axon and many dendrites (and dendritic branches), allowing for the integration of a great deal of information from other neurons.

Question 79

What are some disorders associated with malfunctioning norepinephrine?

Answer 79

• undersupply: depression
• oversupply: stress and panic disorders

Question 80

prefrontal cortex function

Answer 80

• executive function
• complex mental abilities such as setting goals, judgements, tartegic planning, controlling impulses, adapting behaviour to novel scenarios

Question 81

Where do neurons communicate?

Answer 81

functional connection at the synapse

Question 82

What to systems make up the PNS?

Answer 82

• autonomic nervous system
• Somatic nervous system

Question 83

Where is the somatic sensory cortex found

Answer 83

parietal lobe

Question 84

Role of oligodendrocytes

Answer 84

• highly specialized neural cells whose function is to myelinate central nervous system axons.

Question 85

What is the major function of Acetylcholine

Aces are fit

Answer 85

excitatory at synapses invovled in muscular movement and memory

Question 86

What is the major function of norepinephrine?

pine trees are connected

Answer 86

• excitatory and inhibitory functions at certain sites
• invovled in neural circuits controlling learning, memory, wakefulness and eating

Question 87

How does K+ moving out of the post synaptic neuron alter its voltage?

Answer 87

If a neurotransmitter opens a K+ channel then the voltage within will become even more negative, and K+ at start of axon will move to dendrites to equalize the conc. internally causing hyperpolarization therfore making the beginning of the axon more positive and decreasing the likelihood for the neccessary threshold to be met for an AP to occur.

Question 88

bipolar neuron function

Answer 88

Specialized sensory neurons for the transmission of sense. As such, they are part of the sensory pathways for smell, sight, taste, hearing, touch, balance and proprioception.

Question 89

How long is a Na+ channel open for?

Answer 89

less than a 1 ms

Question 90

What is the major function of serotonin?

Sir Rotten

Answer 90

inhibitory at most sites; involved in mood, sleep, eating and arousal and may be an important transmitter underlying pleasure and pain

Question 91

what messages do motor neurons carry?

Answer 91

Messages from the CNS to voluntary muscles

Question 92

How does passive ion movement occur for the Na+ and K+ channels?

Answer 92

• concentration gradient
• electrostatic pressure

Question 93

What part of the nerve conduction is polarized?

Answer 93

the resting stage and resting potential.

Question 94

What are the key regions of the limbic system? What are their key functions?

Answer 94

• hippocampus - memory
• amygdala - emotional response

Question 95

How do the Na+ and K+ channels open?

Answer 95

voltage gated - -55mV voltag must be met for Na+ channels to open which ions can then passively move through

Question 96

Cerebellum function

Answer 96

• Timing and coordination of fine movement
• balance

Question 97

frontal lobe function

Answer 97

• ability to plan and carry out sequences of action
• control our behaviour

Question 98

Describe spatial summation

Answer 98

occurs when dendrites together release enough ions to summate to exceed the threshold of the postsynaptic neurone at the axon start

Question 99

Describe glial cells

Answer 99

non-neuronal cells in the central nervous system (brain and spinal cord) and the peripheral nervous system that do not produce electrical impulses. They maintain homeostasis, form myelin, and provide support and protection for neurons.

Question 100

What is the voltage threshold the neuron must meet in order for a AP to occur along the axon?

Answer 100

-55mV

Question 101

How do neurotransmitters interact with the post synaptic neurons

Answer 101

through receptors

Question 102

Purpose of neurons

Answer 102

to recieve, integrate and transmit information

Question 103

What types of neurons make up the somatic peripheral nervous system?

Answer 103

• Sensory neurons
• Motor neurons

Question 104

Describe a bipolar neuron

Answer 104

a type of neuron that has two extensions (one axon and one dendrite).

Question 105

What are the 3 configurations of neurons?

Answer 105

• unipolar
• bipolar
• multipolar

Question 106

What are the 7 major neurotransmitters?

Answer 106

• Glutamate (glutamic acid)
• GABA (gamma-aminobutyric acid)
• Acetylcholine (ACh)
• Norepinephrine
• Serotonin
• Dopamine
• Endorphin

Question 107

What are the two parts of the autonomic nervous system?

Answer 107

• Sympathetic nervous system
• Parasympathetic nervous system

Question 108

Name given to neuron sending neurotranmitters

Answer 108

presynaptic neuron

Question 109

What is the CNS composed of?

Answer 109

brain and spinal chord

Question 110

function of basil ganglia

Answer 110

• Helps to regulate voluntary movement initiated by motor cortex
• Involves the neurotransmitter dopamine

Question 111

Describe graded potential movement

Answer 111

Changes in membrane potential that vary in size, as opposed to being all-or-none. The magnitude of a graded potential is determined by the strength of the stimulus.

Question 112

How do K+ channels open?

Answer 112

After Na+ ions rush in tey increase the positivity of th inside beyond the -55vM threshold so as to increase the voltage moreso and this opens the k+ channels for them to passively move out of the cell to regions of lower conc. to help restore resting potential