Chapter 2C Flashcards

how does the nervous system enable psychological functioning

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1
Q

neurochemicals

A

Neurochemicals are chemicals in the brain and nervous system that play a key role in transmitting signals between neurons.
* These chemicals can be classified as
neurotransmitters and neuromodulators.

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2
Q

the neural synapse

A

A neural synapse is the tiny gap between two nerve cells where they communicate. When one cell sends a signal, it releases chemicals called neurotransmitters into the gap. These chemicals travel to the next nerve cell and pass on the message, allowing the brain and nervous system to work properly.

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3
Q

binding

A

Neurotransmitters have a distinct shape and will only bind
with receptor sites with a complementary shape – like a key fitting into a lock.

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4
Q

the synaptic gap diagram

A

in book

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5
Q

lock and key model of synaptic transmission

A

transmitter molecules will affect the postsynaptic membrane only if their shape fits the shape of a certain receptor molecules in that membrane-much as a key has to fit into a lock.

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6
Q

neurotransmitters

A

A neurotransmitter is a chemical substance that carries a message to other neurons to enable rapid neural communication. it has an effect on one post-synaptic neuron at a time
* The effect can be:
- Excitatory neurotransmitters will stimulate or activate post-synaptic neurons to perform their
functions (i.e. they make neurons more likely to fire).
- Inhibitory neurotransmitters will block or prevent post-synaptic neurons from firing (i.e. they
make neurons less likely to fire).

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7
Q

GABA- an inhibitory neurotransmitter

A

GABA is the primary inhibitory neurotransmitter in the CNS. It works to make post-synaptic neurons less
likely to fire. GABA is important as it counterbalances the excitatory activity of glutamate and ensures the
CNS maintains itself at a calm and balanced state. Without GABA and other inhibitory neurotransmitters,
the CNS may get out of control, resulting in seizures, epilepsy, and mental disorders such as anxiety.

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8
Q

Glutamate - excitatory neurotransmitter

A

Glutamate is the primary excitatory neurotransmitter in the CNS. It enhances the likelihood of effective
neural transmission as it makes neurons more likely to fire an action potential. it is involved in most aspects of normal brain functioning
such as memory, learning, perception, and movement, as these all require efficient communication between
neurons.

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9
Q

neuromodulators

A
  • These neurochemicals have an effect on a larger scale than
    a neurotransmitter. They act on multiple synapses at once,
    and have a longer lasting effect. they are called modulators because they modify how neurons respond to trasmitters, changing their responsiveness to enhance the ecitatory or inhibitory effects on neurotransmitters. the two main neuronmodulaters are seritonin and dopamine
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10
Q

dopamine - a neuromodulator

A
  • Dopamine is produced in a number of areas in the brain – the substantia nigra and the ventral
    tegmental area – both located in the midbrain.
  • It has both an inhibitory or excitatory effect on the post-synaptic neuron, depending on the
    receptor sites present.
  • Dopamine has a role in producing smooth muscle movements. It also is released during
    learning and acts as a pleasurable reward for a behaviour. For this reason, it can also motivate
    people to repeat dopamine producing behaviours for the pleasurable outcome
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11
Q

dopamine and parkinsons disease

A
  • A lack of dopamine produced in the substantia
    nigra can lead to Parkinson’s disease. This has an
    impact on movement and causes slowed movement,
    muscle rigidity, tremors, poor balance and poor
    posture.
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12
Q

dopamine and addiction

A
  • The release of dopamine can act as a reward. In some
    cases, people will repeat a behaviour many times to
    experience that pleasurable feeling again. This can lead to
    addiction of certain behaviours – gaming, gambling, risky
    behaviours are examples.
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13
Q

serotonin - a neuromodulator

A
  • A large area of neurons in the brainstem (called the raphe
    nuclei) produce serotonin and sends it throughout the
    brain.
  • It has an inhibitory and excitatory effect on the postsynaptic neuron.
  • Serotonin has a significant role in maintaining positive,
    stable moods.
  • It also has a role in maintaining our sleep-wake cycle and
    is also involved in digestion, appetite and arousal.
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14
Q

serotonin and mental health

A
  • If serotonin levels are too low, it can lead to
    depression, feelings of being inadequate. Many
    medications for depression target serotonin receptors
    in the brain or work to increase serotonin levels.
  • A link between poor sleep and serotonin levels has
    also been found – highlighting the importance of
    sleep for mental health.
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