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Gre Psychology: Experimental/natural Science Biology

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Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. These two brain structures contain entry/exits for most of the cranial nerves and control vital functions (heart rate -digestion - respiration)
Cranial Nerves
Cranial Nerve II
substantia nigra
medulla & pons

2. When a neuron reaches its excitation threshold - the neuron will produce an action potential of FIXED amplitude regardless of the magnitude of the stimulation
endorphin
osmoregulation
All-or-None Law
Cranial Nerve VI

3. Symptom of narcolepsy - paralysis occurring just before a person falls alseep
norepinephrine
sleep paralysis
superior colliculi
anterior hypothalamus

4. Result in either tolerance (and possible withdrawal symptoms) or sensitization (increase effectiveness of the drug)
relative refractory period
amygdala
effects of repeated administration
ventricles

5. 1. ventral tegmentum to mesolimbic forebrain (cognition - reward systems - emotional behavior) 2. substantia nigra to caudate nucleus putamen (movement and sensory stimulation) 3. hypothalamus to pituitary gland (neuronal/hormonal control)
Cranial Nerve VII
receptive field
the 3 major pathways of dopamine in the brain
indirect antagonists

6. Occurs when a neuron is hyperpolarized and characterized by sufficient strength of stimulation triggering a new action potential
adrenocorticotropic (ACTH)
effects of repeated administration
substantia nigra
relative refractory period

7. Lesions to this brain structure that is crucial to memory will produce anterograde amnesia
pheromone
ipsilateral
hippocampus
amacrine cells

8. These two developed the criteria for habituation; basic process is a form of synaptic depression that occurs presyntaptically.
parietal lobes
Thompson & Spencer
vitreous humor
hypothalamus

9. Occurs intermittently during early stages of slow-wave sleep and REM sleep 3.5-7.5 Hz
endocrine system
theta activity
indirect antagonists
consummatory stimulus

10. Contains receptors to detect when the body needs food or fluids; the hunger center; lesions lead to aphagia
Cranial Nerve XI
lateral hypothalamus (LH)
Coolidge effect
inferior colliculi

11. Facial Nerve - moves face and salivates
Cranial Nerve VII
tritanopia
suspensory ligament
Mesolimbic System

12. Trochlear Nerve - moves eye
fusiform face area
Cranial Nerve IV
superior colliculi
norepinephrine

13. Absolute; relative
ventromedial hypothalamus (VMH)
the ___ refractory period follows the ____ refractory period
parathyroid
hypocretin

14. Some brain communications are with the same side of the body
ipsilateral
path of cerebrospinal fluid
mesencephalon
endorphin & enkephalin

15. Symptom of narcolepsy; complete paralysis that occurs while AWAKE/conscious; will suddenly fall to floor paralyzed for a few minutes
suprachiasmatic nucleus
cataplexy
vitreous humor
motor cortex

16. An ovary or teste
equipotentiality
hypothalamus
gonad
proximate biological considerations

17. Two different presynaptic neurons/inputs to a post-synaptic cell
the adrenal medulla
spatial summation
efferent neurons
noncompetitive binding

18. Is everything anterior to the central sulcus
Frontal lobe
serotonin (5-HT) (neurotransmitter)
agonist
emotional disclosure + immune functioning

19. Occurs during the deepest stages of slow-wave sleep; regular - synchronous electrical activity of less than 4 Hz
delta activity
Coolidge effect
sleep paralysis
diencephalon

20. Affect multiple receptors; highly preferential to which type of receptor they affect
Cranial Nerve XII
nigrostriatal system
neostriatum
dirty medications; clean medications

21. Transparent substance between lens and retina
Glial cells
vitreous humor
sensorimotor cortex
collateral sprouting

22. Auditory receptor cells in the cochlea that turn sound vibrations -> neural impulses
absolute refractory periods
hair cells
pineal gland
dopamine (neurotransmitter)

23. Is used to treat Parkinson'S Disease
L-Dopa
behavioral regulation
receptive field
affinity

24. Midbrain - medulla and the pons
path of lightwaves entering eye
septal rage
brainstem
suspensory ligament

25. Extensive research in dreams - said BAH to Freud; proposed the activation-synthesis hypothesis (dreams are nothing more than the product of random electrical impulses)
medial nucleus of the amygdala
Coolidge effect
serotonin (5-HT) (neurotransmitter)
Hobson & McCarley

26. Lens changes initiated by the ciliary muscles to change the shape of the lens in order to focus image on the retina
indications of psychological-physiological interaction in pain
spinal cord
prefrontal hypoactivity
accommodation (bodily)

27. Cells that integrate information across the retina; rather than sending signals toward the brain - amacrine cells link bipolar cells to other bipolar cells and ganglion cells to other ganglion cells
hindbrain
association area
neuropeptide Y (NPY)
amacrine cells

28. learning and memory -neurotransmitter released at the neuromuscular junction of skeletal muscle axons to excite the muscle to contract
acetylcholine
tectum
ionotropic receptors
anterior hypothalamus

29. Physiologically different from the other four stages of sleep (i.e. the similarity between the summed electrical activity of neurons measured on the scalp (EEG) during REM sleep and during wakefulness
Mesocortical system
tectum
suspensory ligament
REM sleep

30. AKA the striate cortex - located at the back of the brain - and contains the visual cortex
occipital lobes
hair cells
ultimate biological considerations
theta activity

31. Activates one of 5 types of receptors in the CNS - cognition - motor activity - reward - muscle tone - sleep - mood - attention - learning -higher level effects of dopamine = D2
medulla & pons
non-competitive binding
dopamine (neurotransmitter)
Bem'S Androgyny studies

32. Projects to ventral tegmental area
reticular formation
an increase in alpha-1 receptors
dopaminergic systems
prefrontal cortex

33. 1. Stage I (non-REM sleep) 2. Stage II (non-REM sleep 3. Stage III (non-REM sleep - slow-wave sleep) 4. Stage IV (non-REM sleep - slow-wave sleep) 5. Rapid Eye Movement Sleep (REM sleep) ~takes about 90 minutes for one full sleep cycle
behavioral regulation
cerebellum
indirect antagonists
stages of sleep

34. Stimulates bone growth and produces the hormones: somatotropin - prolactin - thyroid-stimulating - adrenocorticotropic (ACTH) - follicle-stimulating - luteinnizing
proximate biological considerations
stages of sleep
emotional disclosure + immune functioning
pituitary gland

35. Includes the tectum and tegmentum
tardive dyskinesia
tectum
mesencephalon
brainstem

36. Include tolerance (possible withdrawal) and sensitivity
effects of repeated administration
consummatory stimulus
phenotype
endorphin & enkephalin

37. Accessory Nerve - moves the head
slow-wave sleep
Cranial Nerve XI
Hobson & McCarley
aqueous humor; vitreous humor

38. EEG desynchrony (rapid -irregular waves) - lack of muscle tonus - rapid eye movements - penile erection/vaginal secretion - dreams; EEG synchrony (slow waves) - moderate muscle tonus - slow/absent eye movements - lack of genital activity
subarachnoid space
aqueous humor; vitreous humor
slow-wave sleep
REM sleep; Slow Wave Sleep

39. Pass the easiest through the blood-brain barrier
sleep paralysis
lipid soluble drugs/medications
biological etiology of schizophrenia
mammillary bodies

40. Adenine - Guanine - Thymine - Cytosine
nucleotides
synthesis-activation hypothesis
reciprocal innervation
alpha activity

41. Is found in PTSD/CPTSD patients and persons exposed to chronic stress
efferent neurons
medial nucleus of the amygdala
reticular formation
a decrease in neuropeptide Y

42. The maintenance of water balance in the body
diencephalon
mesencephalon
Mesolimbic System
osmoregulation

43. Thymoleptics = relieves mania of bipolar disorder (lithium carbonate - valproic acid - carbamazepine)
non-competitive bonding
indirect antagonists
osmoregulation
antimanics

44. Made from within - natural
endogenous
hindbrain
sensitivity
adrenocorticotropic (ACTH)

45. Has a calcium-related role and produces the hormone parathyroid
projection area
parathyroid
mesencephalon
amacrine cells

46. Most pervasive excitatory neurotransmitter in the brain
glutamate (neurotransmitter)
L-Dopa
acetylcholine (neurotransmitter)
parietal lobes

47. 'Roof'
tectum
projection area
Bem'S Androgyny studies
Gonadotropin-releasing hormone

48. Termination of pregnancy by the odor of a pheromone in the urine of a male other than the one that impregnated the female; first observed in mice
Lee-Boot effect
pupil
Bruce effect
monoamine neurotransmitters

49. Forebrain -band of nerve fibers connecting the two cerebral hemispheres
corpus callosum
phenotype
hypothalamus
Hobson & McCarley

50. Causes mesolimbic dopamine hyperactivity; etiology of schizophrenia
Mesolimbic System
motor cortex
prefrontal hypoactivity
endorphin & enkephalin