Final review Jeopardy Template

Neurotransmission and synapses

Learning and Memory

Stress and Hormones

Drugs and Reward

Systems and Behavior

100

What determines the function of a neurotransmitter?

The receptor it binds to

100

What type of learning pairs a neutral stimulus with a reward?

Classical conditioning

100

What system activates during acute stress?

Sympathetic nervous system

100

What is the brain’s reward pathway called?

Mesolimbic pathway

100

What brain region regulates hunger and homeostasis?

Hypothalamus

200

What ion flows through NMDA receptors during LTP?

Calcium (Ca²⁺)

200

What type of learning links behavior to reward?

Operant conditioning

200

What hormone(s) are released during stress?

Cortisol (and epinephrine)

200

Where does dopamine originate in the mesolimbic pathway?

VTA

200

What sleep stage has muscle paralysis?

REM

300

What synaptic change strengthens transmission in LTP?

Insertion of AMPA receptors

300

Where are memories stored?

Synapses between neurons

300

Why does cortisol affect many systems?

Receptors are widespread

300

What are three things that can trigger relapse?

Drugs, cues, stress

300

What does EEG measure?

Summed cortical activity

400

Name one structural change during LTP.

Increased spine size / protein synthesis

400

What happens after hippocampal damage?

Impaired declarative and spatial memory

400

Explain how the same chemical signal could function as both a neurotransmitter and a hormone, and what determines its role in each context.

The function depends on how and where it is released. If released into a synapse, it acts as a neurotransmitter with fast, localized effects. If released into the bloodstream, it acts as a hormone with slower, widespread effects. The mode of delivery and receptor context determine its function.

400

How does ketamine affect NMDA receptors?

Noncompetitive antagonist

400

Where would you measure NE during attention?

Prefrontal cortex

500

Explain how NMDA receptor activation enables synapse-specific strengthening during simultaneous neuronal activity.

NMDA receptors require both presynaptic glutamate release and postsynaptic depolarization. When both occur, Ca²⁺ enters the cell, triggering signaling pathways that strengthen that specific synapse.

500

In fear conditioning, what triggers freezing after learning?

The conditioned stimulus (tone)

500

Which hormone increases hunger?

Ghrelin

500

How does LSD affect 5-HT2A receptors?

Agonist (activates receptor)

500

What neurons promote wakefulness in optogenetics experiments?

Hypocretin neurons (lateral hypothalamus)