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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. Projects to ventral tegmental area
Glial cells
cerebrospinal fluid
prefrontal cortex
stages of sleep

2. Includes the thalamus and hypothalamus; region of forebrain surrounding the 3rd ventricle
red nucleus + substantia nigra
ventromedial hypothalamus (VMH)
hypocretin
diencephalon

3. Include indolamines (serotonin) and catecholamines (dopamine - norepinephrine and epinephrine)
theta activity
monoamines
Mesocortical system
glutamic acid decarboxylase (GAD)

4. Increases heartrate - dilates/constricts blood vessels - increases blood sugar - produces hormones epinephrine and norepinephrine
cerebral cortex
amygdala
hypothalamus
the adrenal medulla

5. A 90-minute activity cycle occurs throughout the day as well as throughout sleep (in humans) waxing and waning alertness controlled by a biological clock in the caudal brainstem that also controls cycles of REM and slow-wave sleep
gonad
progesterone
basic rest-activity cycle
Lee-Boot effect

6. Glandular system control center - produces the hormones oxytocin and antidiuretic; functions in both the nervous system and endocrine sytem - In the forebrain - regulates motivated behaviors (eating - drinking - aggression - sexual behavior
acetylcholine
hypothalamus
law of specific nerve energies
dirty medications; clean medications

7. Decreasing effects of a medication due to repeated administration
mesencephalon
the 4 effects of pheromones on reproductive cycles
stages of sleep
tolerance

8. Links the nervous system and endocrine system; comprised of involuntary efferent neurons and divided into the Sympathetic and Parasympathetic branches: Sympathetic Nervous System is involved in the 'fight or flight' response and the Parasympathetic N
myelin sheath
graded potentials
autonomic nervous system
reciprocal innervation

9. Found in the ventricles and spinal canal
pheromone
scotopic vision
Cranial Nerve IX
cerebrospinal fluid

10. These two developed the criteria for habituation; basic process is a form of synaptic depression that occurs presyntaptically.
diploid
amacrine cells
association areas; projection areas
Thompson & Spencer

11. Has neurons for reflexes
zygosity
contralateral
spinal cord
tolerance

12. Trigerminal Nerve - face sensation
nystagmus
endogenous
cerebellum
Cranial Nerve V

13. Is found at the base of the brain - underneath the thalamus (**remember hypo-below)
autonomic nervous system
suspensory ligament
pheromone
hypothalamus

14. Acquired language disorders - usually caused by damage in the left hemisphere; includes Broca'S: (left frontal lobe damage) and Wernickes'S (left temporal/parietal damage)
REM sleep; Slow Wave Sleep
hypothalamus
Hebb rule
aphasia

15. 'Roof'
beta activity
Frontal lobe
tectum
indirect antagonists

16. Symptom of narcolepsy - paralysis occurring just before a person falls alseep
suprachiasmatic nucleus
substantia nigra
glutamate (neurotransmitter)
sleep paralysis

17. The female reproductive cycle of most primates - including humans; recognized by growth of the lining of the uterus - ovulation - development of a corpus luteum - and (if pregnancy does not occur) menstration
contralateral
synthesis-activation hypothesis
K Complexes
menstrual cycle

18. Self-dissolving
autolytic
ovaries/testes
Cranial Nerve VIII
efferent neurons

19. Contains delta activity - stages III and IV
Cranial Nerve VII
reticular formation
nucleotides
slow-wave sleep

20. In the limbic system - is a fiber bundle - connects hippocampus with stuff (including the mammillary bodies of the hypothalamus)
amacrine cells
norepinephrine
mesencephalon
fornix

21. 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
amacrine cells
hypothalamus + thalamus
motor cortex
hypothalamus

22. Reduces anxiety - released with NE in amygdala - hippocampus - basal ganglia - periaqueductal gray region - locus coeruleus and PFS; NPY is diminished in persons with PTSD/CPTSD and those exposed to chronic stress
Cranial Nerve VI
Cranial Nerve V
neuropeptide Y (NPY)
Cranial Nerves

23. The maintenance of water balance in the body
osmoregulation
agonist
pituitary gland
basic rest-activity cycle

24. Thymoleptics = relieves mania of bipolar disorder (lithium carbonate - valproic acid - carbamazepine)
temporal lobes
projection areas
GABA
antimanics

25. The increase in REM sleep seen after a period of REM sleep deprivation
monoamine neurotransmitters
REM rebound
H.M
dopaminergic systems

26. Absolute; relative
the ___ refractory period follows the ____ refractory period
amygdala
GABA
Hobson & McCarley

27. A steroid hormone produced by the ovary that maintains the endometrial lining of the uterus during the later part of the menstrual cycle and during pregnancy; along with estradiol it promotes receptivity in female mammals with estrous cycles
progesterone
Glial cells
Cranial Nerve X
diencephalon

28. In the tegmentum (ventral part of midbrain); its neurons connect to caudate nucleus + putamen (in basal ganglia)
ionotropic receptors
substantia nigra
L-Dopa
ipsilateral

29. If head is rotated - eye movements occur in the same direction
Korsakoff'S amnesia
amygdala
direct antagonist
nystagmus

30. Facial Nerve - moves face and salivates
Cranial Nerve VII
neuropeptide Y (NPY)
Cranial Nerve XI
effects of repeated administration

31. Completely disactivates the prefrontal cortex (PFC); due to high levels of norepinephrine (NE)
an increase in alpha-1 receptors
species- specific reactions
the adrenal medulla
nucleotides

32. SCN = controls circadian rhythms - located directly above the optic chasm in the anterior portion of the hypothalamus - receives input from the eyes which is why light exposure affects our sleep-wake cycles
hypnagogic activity
reticulum
anterior hypothalamus
suprachiasmatic nucleus

33. Occurs during the deepest stages of slow-wave sleep; regular - synchronous electrical activity of less than 4 Hz
motor cortex
anterior hypothalamus
delta activity
hindbrain

34. Binding of drug to receptor site that doesn'T interfere with the principal ligand
cerebral cortex
noncompetitive binding
alpha activity
parathyroid

35. Occurs at the onset of puberty; a hypothalamic hormone that stimulates the pituitary gland to secrete gonadotropin
glutamic acid decarboxylase (GAD)
Gonadotropin-releasing hormone
acetylcholine
nucleotides

36. The scientific study of animal behavior; documentation of species-specific instinctual behaviors
ethology
scotopic vision
endorphin
pupil

37. In the posterior frontal lobe - contains the somatosensory cortex (touch - pressure - temperature - pain)
parietal lobes
Yerkes-Dodson Law
Whitten effect
triggers of behavior

38. Binding of a drug to a receptor site that does not interfere with the binding site for the principal ligand
non-competitive binding
REM sleep
hypothalamus
Hobson & McCarley

39. Include tolerance (possible withdrawal) and sensitivity
nystagmus
spinal cord
Cranial Nerve V
effects of repeated administration

40. Are postsynaptic potentials that are found in the dendrites and vary in their intensity
superior colliculi
graded potentials
dopamine (neurotransmitter)
sleep

41. Occurs when an external stimulation - regardless of intensity - will not trigger a new action potential
septum
association area
medulla & pons
absolute refractory periods

42. The slowing and eventual cessation of estrous cycles in groups of female animals that are housed together; caused by a pheromone in the animals urine and first observed in mice
Lee-Boot effect
homeostatic regulation
endogenous
spinal cord

43. These two brain structures contain entry/exits for most of the cranial nerves and control vital functions (heart rate -digestion - respiration)
dirty medications; clean medications
cerebral cortex
proximal image
medulla & pons

44. Bunch of dopaminergic neurons starting in the ventral tegmental area and ending in prefrontal cortex
relative refractory period
Mesocortical system
collateral sprouting
proximate biological considerations

45. Stimulates bone growth and produces the hormones: somatotropin - prolactin - thyroid-stimulating - adrenocorticotropic (ACTH) - follicle-stimulating - luteinnizing
reticulum
absolute refractory periods
pituitary gland
basic rest-activity cycle

46. Means 'Savory' in Japanese and is a taste receptor found on the tongue; activated by glutamate present in meats - cheese and other protein heavy foods
law of specific nerve energies
menstrual cycle
fusiform face area
umami

47. Produce drowsiness and sleepiness
path of lightwaves entering eye
amygdala
lesions in the reticular activating system
diploid

48. Part of a glial cell that wraps around the axon of a neuron - providing insulation that facilitates speed of propagation of action potential
receptor blockers
Vomeronasal Organ
myelin sheath
ethology

49. Sleep tests (i.e. to diagnosis sleep apnea)
polysomnograms
endocrine system
sign stimulus
reciprocal innervation

50. Is found in the interior rostral temporal lobe - part of limbic system
amygdala
polysomnograms
pheromone
osmoreceptors