15,5 - Structure and function of synpases Flashcards

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1
Q

What is a synpase?

A

Poit where the one neurone communicates with another or with an effector

They are important in linking different neurones together and therefore coordinating activities

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2
Q

What is definition of synpase?

A

It is a junction between neurones

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3
Q

What is neurotransmitters?

A

Synpases transmit information , but not impulses from one neurone to another by means of chemcials - neurotransmitter

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4
Q

What is synpatic cleft?

A

Neurones separated by a small gap - 20-30nm wide

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5
Q

What is the presynpactic neurone?

A

Neurone that releases the neurotransmitter

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6
Q

What is the synpactic knob?

A
  • The axon of this neurone ends in swollen portion
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7
Q

What does the synpactic knob possess?

A

Many mitochondria and large amounts of endoplasmic recticulum (SER)

These are required to manfacture of the neurotransmitter which takes place in axon

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8
Q

What is the synpactic vesicle?

A

Where the neurotransmitter is stored

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9
Q

What are the features of synpases?

A
  • Undirectional
  • Summation
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10
Q

Why synpases are unidirectional?

A

Synpases can only pass information in one direction - from presynaptic neurone to the postsynaptic neurone

In way synpases act like valves

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11
Q

What is the problem with low-frequency action potentials?

A

Often lead to the release of insufficient concentrations of neurotransmitters to trigger a new action potential in the postsynpatic neurone

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12
Q

What is summation?

A

Entails a build-up of neurotransmitter in synpase by one of two methods

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13
Q

What are the two methods of summation?

A
  1. Spatial summation
  2. Temporal summation
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14
Q

What is spatial summation?

A

In which a number of different presynaptic neurones together release enough neurotransmitter to exceed the threshold value of the postsynpatic neurone

Together they trigger a new action potential

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15
Q

Diagram of spatial summation and temporal summation:

A
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16
Q

What is temporal summation?

A

In which a single presynaptic neurone releases neurotransmitter many timers over a very short period of time

If the concentration of neurotransmitter exceeds the threshold value of postsynaptic neurone

new action potential is triggered

17
Q

What is inhibitory synpases?

A

Some synpases make it less likely that a new action potential will be created on postsynpatic neurone

18
Q

Instructions of spatial summation

A
  • Neuone A release neurotransmitter but concentration is below threshold to trigger an action potential in postsynaptic neurone
  • Neurone B releases neurotransmitter but concentration is below threshold to trigger an action potential in postsynaptic neurone
  • Neurone A and B release neurotransmitter , concentration above threshold so action potential is triggered in postsynpatic neurone
19
Q

What happens to low frequency action potential in temporal summation?

A

Lead to neurotransmitter being broken down rapidly

Concentration is below threshold to trigger an action potential

20
Q

inhibitory synpases

A
  • Presynpatic neurone releases type of neurotransmitter that binds to Cl- ion portein channels on postsynaptic neurone
  • Neurotransmitter causes chloride ion protein to open
  • Cl - move in postsynpatic neurone by facilitated diffusion
  • Binding of neurotransmitter causes opening of nearby K+ protein channels
  • K+ move out of postsynaptic neurone into synapse
  • Combined effect of Cl - moving in and K+ moving out makes inside postsynpatic membrane more negative and + outside
21
Q

What is the end effect of inhibitory synpases?

A

Membrane potential increases as much to -80mV compared to usual -65mV resting potential

Hyperpolarisation makes it less likely that the new action potential will be created because of larger influx of sodium ions is needed to produce one

22
Q

Why do synpases act like junctions to allow?

A
  • A single impulse along one neurone to initate new impulses in a number of different neurones at a synapse. This allows a single stimulus to create a number of simultaneous responses
  • A number of impulses to be combined at a synapse. This allows nerve impulses from receptor to different stimuli to contribute to single response
23
Q

Synpases are unidirectional

Explain why

A
  • A chemical/neurotransmitter is made on presynaptic neurone and not post-synaptic neurone
  • The neurotransmitter is stored in synaptic vesicles . When an action potential reaches synaptic knob, the membran of vesicles fuse with pre-synaptic membrane to release neurotransmitter
  • When released, neurotransmitter diffuse across the synaptic cleft to bind to specific receptor proteins that are found only on postsynaptic neurone
  • Neurotransmitter binds with the receptor proteins and this leads to a new action potential in post- synaptic neurone - excitory synpases