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Gre Psychology: Experimental/natural Science Biology

Instructions:

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. Located in the midbrain - a group of neurons which produce dopamine and degenerate in Parkinson'S Disease
cerebellum
monoamine neurotransmitters
subcortical structures
substantia nigra

2. Ventral part of midbrain - includes periaqueductal gray matter - reticular formation - red nucleus - and substantia nigra
emotional disclosure + immune functioning
affinity
tegmentum
proximal image

3. Supernormal
vitreous humor
pupil
cerebral cortex
supernormal stimulus

4. 'little net'
serotonin (5-HT) (neurotransmitter)
acetylcholine
occipital lobes
reticulum

5. Occurs intermittently during early stages of slow-wave sleep and REM sleep 3.5-7.5 Hz
proximal image
theta activity
stages of sleep
adrenal cortex

6. Is a receptor blocker; binds with a receptor but does not activate it - actually prevents the natural ligand from binding with the receptor
lipid soluble drugs/medications
direct antagonist
reticular formation
Cranial Nerve V

7. Precursor to GABA (the most inhibitory/regulatory/pervasive neurotransmitter)
myelin sheath
acetylcholine
glutamic acid decarboxylase (GAD)
mesencephalon

8. Occurs when an external stimulation - regardless of intensity - will not trigger a new action potential
Vandenbergh effect
hypothalamus
absolute refractory periods
association areas; projection areas

9. Trigerminal Nerve - face sensation
suprachiasmatic nucleus
locus coeruleus
Cranial Nerve V
cingulate gyrus

10. Optic Nerve - sight
Cranial Nerve II
pupil
corpus callosum
L-Dopa

11. Hormones that reduce pain
anterograde
behavioral regulation
tegmentum
endorphin & enkephalin

12. A drug that facilitates the effects of a particular neurotransmitter on the postsynaptic cell
agonist
progesterone
tardive dyskinesia
sign stimulus

13. Is an oversensitivity to dopamine (D2)
Hobson & McCarley
biological etiology of schizophrenia
cerebellum
zygote

14. Projects to ventral tegmental area
Gonadotropin-releasing hormone
prefrontal cortex
osmoreceptors
nystagmus

15. Glossopharyngeal Nerve - taste swallow
Cranial Nerve IX
supernormal stimulus
the 7 major neurotransmitters
absolute refractory periods

16. A drug that opposes/inhibits the effects of a particular neurotransmitter on the postsynaptic cell
theta activity
antagonist
endorphin & enkephalin
sexual dimorphic behavior

17. Lens changes initiated by the ciliary muscles to change the shape of the lens in order to focus image on the retina
aphasia
temporal summation
accommodation (bodily)
Cranial Nerve IV

18. The restorative effect of introducing a new female sex partner to a male that has apparently become 'exhausted' by sexual activity
reciprocal innervation
mammillary bodies
nigrostriatal system
Coolidge effect

19. Found that developmental changes occurring in puberty make the brain more susceptible to the psychotic effects of NDMA antagonist and therefore also related to the emergence of symptoms of schizophrenia
neuroleptic malignant syndrome (NMS)
biological foundations
anterior hypothalamus
Farber et al. (1995)

20. The increase in REM sleep seen after a period of REM sleep deprivation
Cranial Nerve IX
sleep
a decrease in neuropeptide Y
REM rebound

21. Two different presynaptic neurons/inputs to a post-synaptic cell
non-REM sleep
norepinephrine
an increase in alpha-1 receptors
spatial summation

22. Automatic and rapidly acquired reactions - not attributable to reinforcement or conditioning
tritanopia
beta activity
K Complexes
species- specific reactions

23. An area that combines input from diverse brain regions
indirect antagonists
thalamus
association area
anterograde

24. Cumulative effects of repeated stimulation from a presynaptic neuron
sexual dimorphic behavior
temporal summation
sensorimotor cortex
Frontal lobe

25. Caudate nucleus and putamen
serotonin (5-HT) (neurotransmitter)
sleep attack
receptive field
neostriatum

26. Pass the easiest through the blood-brain barrier
zygosity
lipid soluble drugs/medications
behavioral regulation
K Complexes

27. Smooth electrical activity of 8-12 Hz -medium frequency - awake but in a restful state (^ eyes closed but conscious)
equipotentiality
alpha activity
aqueous humor; vitreous humor
neostriatum

28. Norepinephrine and serotonin
absolute refractory periods
monoamine neurotransmitters
hypothalamus
sleep paralysis

29. A region of the visual association cortex located in the extrastriate cortex at the base of the brain that has special face-recognizing circuits (more important in right hemisphere)
fusiform face area
mammillary bodies
cerebral cortex
tectum

30. Suggests that dreams are nothing more than the product of random electrical impulses (Hobson & McCarley)
dopamine (neurotransmitter)
synthesis-activation hypothesis
non-REM sleep
sleep attack

31. Symptom of narcolepsy - irresistible urge to
sleep attack
hypnagogic activity
relative refractory period
receptive field

32. Made from within - natural
endogenous
aphasia
anterior hypothalamus
pineal gland

33. Is the primary inhibitory neurotransmitter in vertebrates; these receptors are ionotropic
gamma-aminobutyric acid (GABA)
lipid soluble drugs/medications
non-competitive bonding
noncompetitive binding

34. Binding of drug to receptor site that doesn'T interfere with the principal ligand
amygdala
glutamic acid decarboxylase (GAD)
noncompetitive binding
glutamate (neurotransmitter)

35. Synchronized EEG activity during its deeper stages
non-REM sleep
parathyroid
sexual dimorphic behavior
adrenocorticotropic (ACTH)

36. Consummatory stimuli - sign stimuli - supernormal stimuli - releaser
species- specific reactions
pheromone
the ___ refractory period follows the ____ refractory period
triggers of behavior

37. Occurs when a neuron is hyperpolarized and characterized by sufficient strength of stimulation triggering a new action potential
All-or-None Law
relative refractory period
inferior colliculi
amygdala

38. A peptide - also known as OREXIN - produced by neurons whose cell bodies are located in the hypothalamus; their destruction causes narcolepsy
synthesis-activation hypothesis
hypocretin
sleep paralysis
polysomnograms

39. Most brain communications are with the opposite side of the body
All-or-None Law
tardive dyskinesia
contralateral
hypothalamus + thalamus

40. Contains receptors to detect when the body needs food or fluids; the hunger center; lesions lead to aphagia
lateral hypothalamus (LH)
adrenocorticotropic (ACTH)
ethology
cutaneous senses

41. Found in the hypothalamus - function to maintain the water balance in the body
osmoreceptors
substantia nigra
anterior hypothalamus
cerebellum

42. Has a calcium-related role and produces the hormone parathyroid
superior colliculi
vitreous humor
parathyroid
absolute refractory periods

43. Combines input from diverse brain regions; receives sensory information/sends motor impulses
Cranial Nerve VIII
association areas; projection areas
galvanic skin response (GSR)
lens

44. Similarity of alleles for a trait in an organism (i.e. heterozygous or homozygous)
sleep attack
zygosity
sleep spindles
proximal image

45. Occur in amacrine - bipolar and horizontal cells; govern/encompass the opponent-process level of color vision
ionotropic receptors
tyrosine
trichromatic levels of color vision
menstrual cycle

46. Hypoglossal Nerve - moves the tongue
melatonin
scotopic vision
endorphin
Cranial Nerve XII

47. Facial Nerve - moves face and salivates
septal rage
Cranial Nerve VII
biological etiology of Parkinson'S Disease
relative refractory period

48. 'little brain'
dopamine (neurotransmitter)
proximal image
cerebellum
red nucleus + substantia nigra

49. Affect multiple receptors; highly preferential to which type of receptor they affect
homeostasis
tectum
dirty medications; clean medications
occipital lobes

50. Auditory receptor cells in the cochlea that turn sound vibrations -> neural impulses
law of specific nerve energies
Cranial Nerve II
H.M
hair cells