PHYS: Memory & Learning Flashcards

1
Q

What are 2 types of memory?

A
  • Declarative (explicit)
    • Explaining how to work home
  • Procedural (implicit or motor/skill)
    • Walking home
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2
Q

Explain relationship between immediate/short-term, working and long-term memory?

A

Working memory = holding immediate information from many sources to carry out a task.

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3
Q

Which parts of the brain are associated with which aspects of memory?

A
  • Prefrontal cortex - working memory
  • Hippocampus - memory storage and formation
  • Thalamus - memory recall (although a bit more diffuse)
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4
Q

Explain the process of memory consolidation

A
  • Repeated activation ST memory trace => anatomical changes => LT memory
  • Memories are codified => similar things stored together (and recalled together)
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5
Q

What regulates memory consolidation?

A
  • Hippocampus - memory storage
  • Works with limbic system (punishment and reward centres) to create motivation/drive to remember thoughts/experiences.
  • Lesion to hippocampus = anterograde amnesia
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6
Q

What brain centre is important for memory recall?

A

Thalamus

Lesion = retrograde amnesia

Probably plays roll in ‘searching’

Also pFC. Damage = RG Amnesia.

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7
Q

What are the cellular mechanisms of memory?

A
  • Immediate - reverberating cirtus? Activate, go round, back to that place
  • STM - temporary physical or chemical change at the synapse - increased availability of neurotransmitter vesicles
  • LTM - structural changes to synapses/networks, plus:
    • changes in gene expression
    • changes in synapses
    • physical changes - branching axons, more dendrites being formed
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8
Q

Explain positive versus negative learning.

A
  • Negative: habituation
    • Learning to ignore stimuli that lack meaning
  • Positive: facilitation
    • Learning to intensify response to stimuli
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9
Q

What are the mechanisms of negative memory?

A
  • Inhibition of synaptic pathways
  • Reduction:
    • nt production
    • Ca2+ channels at presynpatic bulbs
    • Postsynaptic receptors
    • 2nd messengers -> change gene expression
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10
Q

What are mechanisms of positive memory?

A
  • Facilitation of synaptic pathways
  • Potentiate:
    • nt prodution
    • Ca2+ channels
    • Postsynaptic receptors
    • Synapses
    • 2nd messengers –> changes gene expression
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11
Q

Explain the biochemical process of faclitation at the synapse

A
  • Serotonin released by facilittory neurone at the presynaptic neuron
  • Coactivation results in potentiation
  • Dumps more nts into the synapse
  • Greater signal = potentiation lasts
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12
Q

Explain long-term potentiation (particularly in hippocampus)

A

Repetivie/strong excitatory signals exhance responsiveness.

By repeatedly stimulating neurons in the hippocampus - change shape and structure.

Activates dendritic spines that synapse there and with other neurons.

Long term potentiation increases long term communication by increasing number of neurons.

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13
Q

What is the role of different receptors in LTP in the hippocampus?

(Very confusing)

A

AMPA receptor - glutamate binds to AMPA and allows Na+ to flow - creates excitatory post-synaptic potential

NMDA receptor - normally blocked by magnesium. In LTP, Ca2+ displaces magnesium, meaning enhanced synapses

More AMPA receptors.

Retrograe messengers increase nt vesicles in presynpatic knob.

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14
Q

Explain the neuronal basis of long-term memory

A

Dendritic spines are plastic and activity-dependent

Growth/remodelling of dendritic spines reinforces a particular neural pathway –> maintenance of memory over a lifetime.

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15
Q

What are the cellular mechanisms of LT memory?

A
  • Structural changes (synaptic plasticity)
  • Presynaptic
    • increased nt vesible release sites
    • increase number nt vesicles
    • increased number or presynaptic temini
  • Postsynaptic
    • LTP/LTD
    • Growth/remodelling of dendritic spines
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