3.6.2 and 3.6.3 Nervous Coordination and Muscles

Question 1

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Answer 1

answer

Question 2

What is the purpose of the myelin sheath?

Answer 2

To insulate the axon

Question 3

What is nervous control?

Answer 3

Electrical transmission via nerve impulses and chemical transmission at synapses, fast acting, APs carried by neurones with connections to specific cells, localises and short lived response

Question 4

What is skeletal muscle?

Answer 4

Type of muscle you use to move

Question 5

What is the myosin?

Answer 5

A contractile protein found in thick myofilament. It has an ATPase activity

Question 6

What is actin?

Answer 6

A protein found in the thin myofilament

Question 7

What is a myofibril?

Answer 7

Long, cylindrical organelles inside muscle fibres. each is made up of a series of contractile units called sarcomeres

Question 8

What ion is required for muscle contraction?

Answer 8

Calcium ion

Question 9

Describe sliding filament theory

Answer 9

Myosin and actin filaments slide over each other making the sarcomeres contract. the simultaneous contraction of lots of sarcomeres means the myofibrils and muscle fibres contract

Question 10

What happens to the actin-myosin binding site during muscle relaxation?

Answer 10

Blocked by tropomyosin

Question 11

How is muscle contraction triggered and what then happens?

Answer 11

An AP from a motor neurone stimulates a muscle cell and it depolarises the sarcolemma. Depolarisation spreads down the T tubules to the sarcoplasmic reticulum. This causes the sarcoplasmic reticulum to release Ca2+ ions into the sarcoplasm

Question 12

What happens to troponin during muscle contraction and what is the effect of this?

Answer 12

Calcium ion binds to the troponin, changing it’s shape so the tropomyosin is moved and the actin-myosin binding sites are exposed

Question 13

What happens when the actin-myosin binding site is exposed?

Answer 13

Myosin heads bind to the actin-myosin binding sites on actin forming cross bridges

Question 14

What is the effect of the actin-myosin binding sites being blocked?

Answer 14

Filaments cannot slide past each other

Question 15

Why is ATP required for muscle contraction?

Answer 15

Hydrolysis of ATP provides energy to move the myosin head which pulls the actin along. it also provides energy to break the cross bridge so the myosin head detaches to allow binding to the next binding site

Question 16

What happens when the myosin head reattaches to a different binding site ?

Answer 16

A new actin myosin cross bridge forms. Aany cross bridges form and break very rapidly pulling the actin filament along- which shortens the sarcomere so the muscle contracts

Question 17

How is ATP broken down?

Answer 17

Hydrolysis reactions

Question 18

What is the role of the stimulus during an action potential ?

Answer 18

This excites the neurone cell membrane, causing the Na+ channels to open. The membrane becomes more permeable to Na+, so Na+ diffuse into the neurone down the Na+ electrical gradient. This makes the inside of the neurone more positive.

Question 19

What are the nodes of Ranvier ?

Answer 19

Gaps between schwann cells where there is bare membrane. Na+ channels are concentrated here.

Question 20

What is myelin sheath made by ?

Answer 20

Schwann cells

Question 21

Speed of nerve impulse dependant on…

Answer 21

Diameter of axon, temperature and myelination

Question 22

What is the role of the Na/K pump and the K+ channel in the resting potential ?

Answer 22

Na/K pumps use AT to move 3 Na+ out of the neurone for every 2 K+ moved in, using ATP. Then K+ channel allows facilitated diffusion of K+ out of the neurone down their conc gradient. This makes the outside of the membrane more positive, creating a pd. Then K+ diffuse back in down their electrical gradient, there is no net movement of K+.

Question 23

What is the voltage across the membrane during resting potential?

Answer 23

• 70mV

Question 24

What is the all or nothing response?

Answer 24

Nerve fibres have a threshold to trigger an action potential, this is the point at which there are enough Na+ channels open to cause change in potential difference. if this point is reached an action potential occurs and its always the same size

Question 25

What is the refractory Period ?

Answer 25

Period of recovery after an AP when the cell membranes cant be excited again. The channels are recovering and they cant be made to open

Question 26

What is the purpose of refractory period ?

Answer 26

Acts as a time delay so APs dont overlap but pass along as discrete impulses. It makes sure APs are unidirectional

Question 27

What is threshold level ?

Answer 27

An action potential is only triggered if the potential difference reaches a certain level (-50mv)

Question 28

What is saltatory conduction?

Answer 28

In a myelinated neurone, depolarisation only happens at the nodes of Ranvier. The neurones cytoplasm conducts enough electrical charge to depolarise the next node, so the impulse jumps from node to node

Question 29

Describe the synapse structure

Answer 29

Pre synaptic neurone containing mitochondria and vesicles containing neurotransmitter in synaptic knob, gap between this a post-synaptic neurone is synaptic cleft, post synaptic neurone has neurotransmitter receptors in its membrane

Question 30

What is the role of a synapse ?

Answer 30

control of nerve pathways, allowing flexibility of response. integration of information from different neurones, allowing a coordinated response.

Question 31

Define a synapse

Answer 31

Junction between a neurone and another neurone

Question 32

What is the synaptic cleft?

Answer 32

Gap between post synaptic neurone and pre synaptic neurone (10-20nm)

Question 33

How does an AP trigger calcium influx (in synapse transmission)?

Answer 33

An AP arrives at the synaptic knob, depolarising the presynaptic membrane. the voltage gated Ca 2+ ion channels in the presynaptic neurone open. Ca 2+ diffuse into the synaptic knob

Question 34

How does the calcium influx cause neurotransmitter release (in synapse transmission) ?

Answer 34

the influx of Ca 2+ into the synaptic knob causes the synaptic vesicles to move to and fuse with the presynaptic membrane. the vesicles release the neurotransmitter into the synaptic cleft (exocytosis)

Question 35

How does the neurotransmitter trigger an AP in the postsynaptic neurone (in synapse transmission) ?

Answer 35

the neurotransmitter diffuses across the synaptic cleft and binds to specific receptors on the post synaptic membrane. this causes Na+ channels in post synaptic neurone to open. the influx of Na+ in the post synaptic membrane causes depolarisation. an AP is generated if the threshold is reached. the neurotransmitter is removed from the synaptic cleft so the response doesnt keep happening.

Question 36

How are neurotransmitters inactivated?

Answer 36

Some are taken up by the presynaptic membrane by active transport and are used again. others rapidly diffuse away from the synaptic cleft or are taken up by other cells of the NS.

Question 37

How do synapses ensure impulses are unidirectional ?

Answer 37

the receptors are only on the post synaptic membranes

Question 38

What is summation?

Answer 38

A single synapse doesnt usually depolarise the membrane enough to produce an AP but several impulses arriving within a short time produce enough depolarisation via the release of neurotransmitter to produce an AP.

Question 39

What is temporal summation ?

Answer 39

The addition of several impulses travelling along a single neurone one after the other. their combined release of neurotransmitter generates an AP.

Question 40

What is spatial summation ?

Answer 40

the addition of several impulses from different neurones can produce enough depolarisation above the threshold to produce an AP at the post synaptic neurone

Question 41

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Question 42

complete

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Question 44

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Question 45

what is happening at point x

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Question 48

why does myelination increase the speed of an action potential along a neurone

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Question 52

list the 4 key proteins you would find in the sarcomere and give their functions

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Question 54

how does the banding pattern of the sarcomere change during contraction?

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Question 59

what is this? can you label it

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