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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. Extensive research in dreams - said BAH to Freud; proposed the activation-synthesis hypothesis (dreams are nothing more than the product of random electrical impulses)
monozygotic twins
Hobson & McCarley
sensorimotor cortex
sleep attack

2. One of the primary noradrenergic nuclei whose ascending axons project to frontal cortex - thalamus - hypothalamus - limbic system
Frontal lobe
locus coeruleus
the 3 major pathways of dopamine in the brain
Bruce effect

3. Affect sex characteristics/development and produce estrogen/progesterone (in females - ovaries) and testosterone (in male - testes)
endorphin
ovaries/testes
mesencephalon
cingulate gyrus

4. Motor neurons found in the Somatic (voluntary) and Autonomic (involuntary) Nervous Systems
REM rebound
adrenal cortex
hair cells
efferent neurons

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)
subarachnoid space
menstrual cycle
Yerkes-Dodson Law
diencephalon

6. AKA the striate cortex - located at the back of the brain - and contains the visual cortex
GABA
occipital lobes
theta activity
effects of repeated administration

7. Comprised of the hypothalamus - pituitary gland - thyroid gland - parathyroid - the adrenal cortex - the adrenal medulla - the pancreas - the ovaries/testes - pineal gland.
retinal ganglion cells
cerebellum
a decrease in neuropeptide Y
endocrine system

8. These cells perform a variety of functions but do not transmit information; one type forms the myelin sheath
ultimate biological considerations
reaction time
Cranial Nerve XI
Glial cells

9. Tremors - rigidity of limbs - poor balance and difficulty initiating movements

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10. These two developed the criteria for habituation; basic process is a form of synaptic depression that occurs presyntaptically.
vitreous humor
efferent neurons
Thompson & Spencer
corpus callosum

11. Has a major role in metabolism - stimulation/maintenance - produces the hormones thyroxin and calcitonin
effects of repeated administration
thyroid
hypnagogic activity
biological etiology of schizophrenia

12. Produces acetylcholine. One of the earliest sites of cell death in Alzheimer'S Disease (neurological disorder associated with a deficiency in acetylcholine) is in the basal forebrain
red nucleus + substantia nigra
basal forebrain
accommodation (bodily)
polysomnograms

13. All have similar molecular structure - so many 'dirty' medications
monoamines
effects of repeated administration
Cranial Nerve VIII
antagonist

14. Portion of a sensory field to which a cell responds
autolytic
receptive field
phenotype
REM sleep; Slow Wave Sleep

15. Hypoglossal Nerve - moves the tongue
nigrostriatal system
subdural space
Cranial Nerve XII
Mesocortical system

16. Facial Nerve - moves face and salivates
Cranial Nerve VII
Farber et al. (1995)
medial nucleus of the amygdala
hypothalamus

17. 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
autonomic nervous system
scotopic vision
endogenous

18. Precursor to GABA (the most inhibitory/regulatory/pervasive neurotransmitter)
glutamic acid decarboxylase (GAD)
the 4 effects of pheromones on reproductive cycles
Cranial Nerve VI
ionotropic receptors

19. Lens changes initiated by the ciliary muscles to change the shape of the lens in order to focus image on the retina
accommodation (bodily)
subcortical structures
Cranial Nerve II
indirect antagonists

20. Related to plasticity - the term Lashley used to describe different parts of the cortex being interchangeable in their roles in learning
equipotentiality
tolerance
lens
suprachiasmatic nucleus

21. The midbrain; a region that surrounds the cerebral aqueduct; includes tectum and the tegmentum
monoamine neurotransmitters
mesencephalon
autonomic nervous system
meninges

22. Has a calcium-related role and produces the hormone parathyroid
norepinephrine
parathyroid
a decrease in neuropeptide Y
an increase in alpha-1 receptors

23. Junction of the sagittal and coronal sutures of the skull; often used as a reference point for stereotaxic brain surgery
equipotentiality
bregma
neuropeptide Y (NPY)
medial nucleus of the amygdala

24. A BEHAVIOR; insistent urge of sleepiness forces us to seek sleep/a bad
spatial summation
supernormal stimulus
sleep
lesions in the reticular activating system

25. A chemical released by one animal that affects the behavior or physiology of another animal; usually smelled or tasted
slow-wave sleep
pheromone
pituitary gland
serotonin (5-HT) (neurotransmitter)

26. Cornea - aqueous humor - pupil - lens - vitreous humor - retina
retinal ganglion cells
scotopic vision
path of lightwaves entering eye
reaction time

27. Is found at the base of the brain - underneath the thalamus (**remember hypo-below)
acetylcholine (neurotransmitter)
hypothalamus
hypocretin
neuropeptide Y (NPY)

28. Is characteristic of indirect antagonists
non-competitive bonding
tegmentum
Coolidge effect
bregma

29. Is found in the interior rostral temporal lobe - part of limbic system
Korsakoff'S amnesia
nystagmus
receptor blockers
amygdala

30. Sits just above the hindbrain - contains cranial nerves - parts of the reticular formation -important relay stations for sensory information and the substantia nigra
temporal lobes
biological foundations
pupil
midbrain

31. A peptide - also known as OREXIN - produced by neurons whose cell bodies are located in the hypothalamus; their destruction causes narcolepsy
hypocretin
symptoms of Parkinson'S Disease
hippocampus
Cranial Nerve IX

32. First described by Descartes - a combination of antagonistic muscle movements (e.g. those involved in walking)
neuropeptide Y (NPY)
reciprocal innervation
thalamus
tritanopia

33. Binding of drug to receptor site that doesn'T interfere with the principal ligand
noncompetitive binding
serotonin (5-HT) (neurotransmitter)
septum
hypothalamus

34. The Lee-Boot effect - Whitten effect - Vandenbergh effect - and the Bruce effect; all mediated by the VNO
the 4 effects of pheromones on reproductive cycles
mesencephalon
reciprocal innervation
hippocampus

35. Symptom of narcolepsy; complete paralysis that occurs while AWAKE/conscious; will suddenly fall to floor paralyzed for a few minutes
prefrontal cortex
Cranial Nerve XI
cataplexy
hair cells

36. Include tolerance (possible withdrawal) and sensitivity
effects of repeated administration
neuropeptide Y (NPY)
cerebellum
endogenous

37. Olfactory Nerve - smell
subdural space
tectum
red nucleus + substantia nigra
Cranial Nerve I

38. 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
contralateral
Cranial Nerve X
HPA Axis

39. 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
endocrine system
Cranial Nerves
basic rest-activity cycle
antimanics

40. Expression of traits
subarachnoid space
monozygotic twins
phenotype
amygdala

41. Precursor to the catecholamine neurotransmitters (DA + NE)
ribonucleic acid (RNA)
mesencephalon
thalamus
tyrosine

42. Symptom of narcolepsy - paralysis occurring just before a person falls alseep
medial nucleus of the amygdala
sleep paralysis
supernormal stimulus
antimanics

43. 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)
Cranial Nerve VII
indications of psychological-physiological interaction in pain
aphasia
supernormal stimulus

44. In the tegmentum (ventral part of midbrain); its neurons connect to caudate nucleus + putamen (in basal ganglia)
tyrosine
substantia nigra
tardive dyskinesia
triggers of behavior

45. Thymoleptics = relieves mania of bipolar disorder (lithium carbonate - valproic acid - carbamazepine)
antimanics
reciprocal innervation
amygdala
projection fiber

46. Focuses light waves on the retina and is held in place by the suspensory ligament; aqueous humor on cornea side; vitreous humor on retina side
lens
sign stimulus
amygdala
aqueous humor

47. Decreases with age up until age 30 - then begins to increase *(counter intuitive)*
reaction time
tegmentum
suspensory ligament
hypothalamus + thalamus

48. Increasing effects/effectiveness of a medication due to repeated administration
suprachiasmatic nucleus
sensitivity
agonist
tyrosine

49. Completely disactivates the prefrontal cortex (PFC); due to high levels of norepinephrine (NE)
reticular formation
ultimate biological considerations
an increase in alpha-1 receptors
anterior hypothalamus

50. Is a loss of dopamine cells in the substantia nigra of the basal ganglia; these cells are usually dark (nigra) but in Parkinson'S - the substantia nigra appears white due to cell death

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