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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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1. These two brain structures contain entry/exits for most of the cranial nerves and control vital functions (heart rate -digestion - respiration)
medulla & pons
meninges
gamma-aminobutyric acid (GABA)
a decrease in neuropeptide Y

2. Stimulates bone growth and produces the hormones: somatotropin - prolactin - thyroid-stimulating - adrenocorticotropic (ACTH) - follicle-stimulating - luteinnizing
effects of repeated administration
projection areas
monoamines
pituitary gland

3. Involved in the effects of odors/pheromones in reproductive behavior - a nucleus that receives olfactory information from the olfactory bulb and accessory olfactory bulb
hypothalamus + thalamus
medial nucleus of the amygdala
nystagmus
thalamus

4. Adenine - Guanine - Thymine - Cytosine
ethology
biological etiology of Parkinson'S Disease
cerebellum
nucleotides

5. Is found between the arachnoid mater and Pia mater; this is where CSF cushions (and bathes) the brain - giving it the floating quality (and keeping it moist/circulating)
association areas; projection areas
neuropeptide Y (NPY)
subarachnoid space
lesions in the reticular activating system

6. Holds the lens in place
suspensory ligament
Cranial Nerve IX
affinity
nucleotides

7. Hormone secreted during the night by the pineal body; role in circadian and seasonal rhythms
melatonin
path of lightwaves entering eye
polysomnograms
monoamines

8. Is the primary inhibitory neurotransmitter in vertebrates; these receptors are ionotropic
osmoregulation
gamma-aminobutyric acid (GABA)
triggers of behavior
biological foundations

9. Sudden - sharp waveforms found only in Stage II of sleep; spontaneously occur about one per minute but also to unexpected noises
hypothalamus
aqueous humor
hypothalamus
K Complexes

10. Has two lobes that are connected by the massa intermedia (looks like a pair of balls - without the nutsack)
thalamus
extirpation
subcortical structures
motor cortex

11. Accessory Nerve - moves the head
Glial cells
Cranial Nerve VII
Cranial Nerve XI
Gonadotropin-releasing hormone

12. Lesions to this brain structure that is crucial to memory will produce anterograde amnesia
bregma
occipital lobes
emotional disclosure + immune functioning
hippocampus

13. Irregular electrical activity of 13-30 Hz - state of arousal - attentive
beta activity
aqueous humor; vitreous humor
osmoregulation
REM sleep

14. Symptom of narcolepsy - irresistible urge to
sleep attack
myelin sheath
triggers of behavior
serotonin (5-HT) (neurotransmitter)

15. Includes comparative (evolution/genetics/animal behavior/ethology) and behavioral regulation
trichromatic levels of color vision
the adrenal medulla
biological foundations
Cranial Nerves

16. The synchronization of the menstrual or estrous cycles of a group of females - which occurs only in the presence of a pheromone in a male'S urine
Whitten effect
neuroleptic malignant syndrome (NMS)
red nucleus + substantia nigra
adrenal cortex

17. 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
stages of sleep
Vandenbergh effect
fornix
law of specific nerve energies

18. 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)
projection area
neuropeptide Y (NPY)
graded potentials
the 3 major pathways of dopamine in the brain

19. Vagus Nerve - heart rate and digestion
Cranial Nerve IX
monoamines
Cranial Nerve X
lesions in the reticular activating system

20. Functions as both a hormone and a neurotransmitter in the brain
ionotropic receptors
norepinephrine
noncompetitive binding
monoamine neurotransmitters

21. Binding of a drug to a receptor site that does not interfere with the binding site for the principal ligand
tectum
suspensory ligament
scotopic vision
non-competitive binding

22. Ventral part of midbrain - includes periaqueductal gray matter - reticular formation - red nucleus - and substantia nigra
delta activity
tegmentum
subcortical structures
locus coeruleus

23. 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)
aphasia
nucleotides
projection area
dopamine (neurotransmitter)

24. Precursor to the catecholamine neurotransmitters (DA + NE)
cerebrospinal fluid
noncompetitive binding
tyrosine
efferent neurons

25. 'little net'
pituitary gland
reticulum
ultimate biological considerations
reciprocal innervation

26. Pleasure center of the brain; discovered by Olds & Milner
myelin sheath
Farber et al. (1995)
vitreous humor
septum

27. Receptors whose activation directly affects potassium or chloride ion channels in the neuron - (many drugs of abuse substitute for natural GABA- alcohol - benzos - barbituates
aphasia
ionotropic receptors
direct antagonist
autonomic nervous system

28. Part of limbic system; protrusion of the bottom of the brain at the posterior end of the hypothalamus - contains some hypothalamic nuclei
relative refractory period
mammillary bodies
proximal image
thalamus

29. Also known as ABLATION - is any surgically induced brain lesion
extirpation
autolytic
Glial cells
occipital lobes

30. Includes the tectum and tegmentum
Farber et al. (1995)
mesencephalon
Vandenbergh effect
projection fiber

31. Can occur after long term antipsychotic tx (opposite of Parkinson'S?); oversensitivity to dopamine
monoamines
meninges
tardive dyskinesia
monoamines

32. Audition: protrusions on top of midbrain; part of auditory system
homeostatic regulation
pupil
inferior colliculi
monozygotic twins

33. Suggests that dreams are nothing more than the product of random electrical impulses (Hobson & McCarley)
Vomeronasal Organ
association area
ethology
synthesis-activation hypothesis

34. Controls sexual activity; lesions inhibit sexual behavior; stimulation increases aggressive sexual behavior
slow-wave sleep
sleep paralysis
anterior hypothalamus
Cranial Nerve X

35. Trochlear Nerve - moves eye
non-competitive binding
Cranial Nerve IV
Vomeronasal Organ
synthesis-activation hypothesis

36. These cells perform a variety of functions but do not transmit information; one type forms the myelin sheath
Glial cells
beta activity
hypnagogic activity
monoamines

37. Measure changes in the electrical resistance of the skin (sweat gland activity)
relative refractory period
meninges
galvanic skin response (GSR)
gamma-aminobutyric acid (GABA)

38. Is found at the base of the brain - underneath the thalamus (**remember hypo-below)
Cranial Nerve V
hypothalamus
brainstem
temporal lobes

39. 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)
lesions in the reticular activating system
norepinephrine
fusiform face area
osmoregulation

40. These two developed the criteria for habituation; basic process is a form of synaptic depression that occurs presyntaptically.
neuropeptide Y (NPY)
Thompson & Spencer
noncompetitive binding
law of specific nerve energies

41. Instead of one continuum for sex (masculine-feminine) - her work in the presence of both masculine and feminine features/development suggests these are actually two separate continuums (defeminized-feminized and unmasculinized-masculinized)

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42. Associated with defensive and aggressive behavior; lesions produce docility and hypersexual states (Kluver & Bucy)
amygdala
thalamus
sleep paralysis
Hebb rule

43. When a neuron reaches its excitation threshold - the neuron will produce an action potential of FIXED amplitude regardless of the magnitude of the stimulation
All-or-None Law
effects of repeated administration
lens
adrenocorticotropic (ACTH)

44. 3 layers of tissues that cover and protect CNS; dura mater (outermost layer) - arachnoid mater (middle layer) - Pia mater (innermost layer)
meninges
progesterone
Cranial Nerve XII
iris

45. A chemical released by one animal that affects the behavior or physiology of another animal; usually smelled or tasted
locus coeruleus
pheromone
trichromatic levels of color vision
scotopic vision

46. Refers to both the somatosensory cortex and motor cortex (they are a little different but very interrelated)
sensorimotor cortex
substantia nigra
phenotype
medial nucleus of the amygdala

47. The scientific study of animal behavior; documentation of species-specific instinctual behaviors
ethology
Vomeronasal Organ
the 7 major neurotransmitters
thyroid

48. Automatic and rapidly acquired reactions - not attributable to reinforcement or conditioning
ribonucleic acid (RNA)
sleep
subarachnoid space
species- specific reactions

49. ...
law of specific nerve energies
norepinephrine
cerebellum
norepinephrine

50. In the CNS - is an amino acid that stabilizes neural activity
progesterone
septum
lipid soluble drugs/medications
GABA