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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. A peptide - also known as OREXIN - produced by neurons whose cell bodies are located in the hypothalamus; their destruction causes narcolepsy
aqueous humor
dirty medications; clean medications
hypocretin
amygdala

2. Is found in PTSD/CPTSD patients and persons exposed to chronic stress
corpus callosum
a decrease in neuropeptide Y
neuropeptide Y (NPY)
subdural space

3. Affect multiple receptors; highly preferential to which type of receptor they affect
red nucleus + substantia nigra
aqueous humor
dirty medications; clean medications
spinal cord

4. Facial Nerve - moves face and salivates
emotional disclosure + immune functioning
Cranial Nerve VII
All-or-None Law
ovaries/testes

5. hormone - secreted by the pituitary gland -signals the adrenal gland to secrete corticosteroid hormones -ACTH is a critical component of the HPA Axis that controls the stress response
iris
Gonadotropin-releasing hormone
adrenocorticotropic (ACTH)
Cranial Nerve VIII

6. Most pervasive excitatory neurotransmitter in the brain
hypothalamus
basal ganglia
septal rage
glutamate (neurotransmitter)

7. Has neurons for reflexes
dopamine (neurotransmitter)
spinal cord
equipotentiality
reticulum

8. Include indolamines (serotonin) and catecholamines (dopamine - norepinephrine and epinephrine)
monoamines
tyrosine
sexual dimorphic behavior
hypothalamus

9. If head is rotated - eye movements occur in the same direction
hypothalamus
nystagmus
monoamines
acetylcholine

10. AKA the striate cortex - located at the back of the brain - and contains the visual cortex
ethology
REM sleep
lens
occipital lobes

11. Increasing effects/effectiveness of a medication due to repeated administration
suprachiasmatic nucleus
norepinephrine
delta activity
sensitivity

12. In the posterior frontal lobe - contains the somatosensory cortex (touch - pressure - temperature - pain)
parietal lobes
monoamines
tolerance
triggers of behavior

13. Oculomotor Nerve - moves eye pupil
Farber et al. (1995)
temporal summation
amygdala
Cranial Nerve III

14. These two brain structures contain entry/exits for most of the cranial nerves and control vital functions (heart rate -digestion - respiration)
myelin sheath
medulla & pons
adrenal cortex
spinal cord

15. Transparent substance between lens and retina
iris
species- specific reactions
vitreous humor
hippocampus

16. 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
hair cells
Vomeronasal Organ
Lee-Boot effect
homeostatic regulation

17. Is generated by photoreceptors that are only sensitive to degrees of brightness; black-and-white vision found in the rods
progesterone
scotopic vision
proximate biological considerations
Cranial Nerve IV

18. learning and memory -neurotransmitter released at the neuromuscular junction of skeletal muscle axons to excite the muscle to contract
Glial cells
affinity
acetylcholine
Cranial Nerve VII

19. 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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20. Is used to treat Parkinson'S Disease
L-Dopa
parietal lobes
contralateral
Bruce effect

21. A large network of neural tissue located in the central region of the brain stem - from the medulla to the diencephalon
cerebellum
Gonadotropin-releasing hormone
reticular formation
motor cortex

22. Decreases with age up until age 30 - then begins to increase *(counter intuitive)*
amygdala
retinal ganglion cells
reaction time
midbrain

23. Eating - sex - aggression - sleep - focus on subcortical and neuroendocrine control of behavior
behavioral regulation
beta activity
superior colliculi
estrous cycle

24. An inherited form of defective color vision in which hues with short wavelengths are confused (blue cone dysfunction); see world in green and red
prefrontal cortex
diploid
ventricles
tritanopia

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)
midbrain
graded potentials
Hobson & McCarley
Coolidge effect

26. Receptors whose activation directly affects potassium or chloride ion channels in the neuron - (many drugs of abuse substitute for natural GABA- alcohol - benzos - barbituates
trichromatic levels of color vision
ionotropic receptors
equipotentiality
temporal summation

27. Controls sexual activity; lesions inhibit sexual behavior; stimulation increases aggressive sexual behavior
an increase in alpha-1 receptors
H.M
anterior hypothalamus
agonist

28. Viscous substance between cornea and lens; transparent substance between lens and retina
aqueous humor; vitreous humor
scotopic vision
hindbrain
noncompetitive binding

29. Is characteristic of indirect antagonist drugs
indications of psychological-physiological interaction in pain
Cranial Nerve VI
cerebrospinal fluid
noncompetitive binding

30. 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
zygosity
autonomic nervous system
basic rest-activity cycle
affinity

31. 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)
GABA
lesions in the reticular activating system
All-or-None Law
the 3 major pathways of dopamine in the brain

32. The female reproductive cycle of mammals other than primates
Cranial Nerve XI
estrous cycle
Cranial Nerve II
association area

33. Self-dissolving
autolytic
tardive dyskinesia
subarachnoid space
absolute refractory periods

34. Includes the tectum and tegmentum
cerebrospinal fluid
mesencephalon
subarachnoid space
aqueous humor

35. Projects to ventral tegmental area
amygdala
prefrontal cortex
biological foundations
thalamus

36. Combines input from diverse brain regions; receives sensory information/sends motor impulses
association areas; projection areas
emotional disclosure + immune functioning
menstrual cycle
dopamine (neurotransmitter)

37. Abducens Nerve - moves eye
superior colliculi
receptive field
temporal lobes
Cranial Nerve VI

38. Suggests that dreams are nothing more than the product of random electrical impulses (Hobson & McCarley)
synthesis-activation hypothesis
Cranial Nerves
phenotype
galvanic skin response (GSR)

39. Attaches to the binding site on a receptor and interferes with the receptor'S action - but NOT by interfering with the principal ligand'S binding site (noncompetitive binding)
REM sleep
Cranial Nerve I
equipotentiality
indirect antagonists

40. Fluid filled cavities in the middle of the brain - linking to the spinal canal that runs down the middle of the spinal cord; this fluid is cerebrospinal fluid
basal ganglia
cerebellum
ventricles
spatial summation

41. Audition: protrusions on top of midbrain; part of auditory system
inferior colliculi
antimanics
endorphin & enkephalin
H.M

42. Lens changes initiated by the ciliary muscles to change the shape of the lens in order to focus image on the retina
Frontal lobe
the ___ refractory period follows the ____ refractory period
accommodation (bodily)
cutaneous senses

43. ...
pineal gland
law of specific nerve energies
sleep spindles
sensorimotor cortex

44. An anterograde amnesia in which one cannot form episodic memories BUT in experiments - patients that cannot identify previously heard melodies do show a preference for them -> explicit memory function has a different neurological basis than implicit

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45. States that performance is worst at extremely low or extremely high levels of arousal and optimally at an intermediate level
homeostasis
Yerkes-Dodson Law
the 3 major pathways of dopamine in the brain
ipsilateral

46. Auditory receptor cells in the cochlea that turn sound vibrations -> neural impulses
subcortical structures
hair cells
basic rest-activity cycle
Mesocortical system

47. Expression of traits
a decrease in neuropeptide Y
sign stimulus
behavioral regulation
phenotype

48. Somewhat excitatory - also involved in synaptic plasticity - learning and short-term memory
prefrontal hypoactivity
equipotentiality
motor cortex
acetylcholine (neurotransmitter)

49. Dorsal part of midbrain; includes the superior and inferior colliculi
monoamine neurotransmitters
reticular formation
tectum
basal forebrain

50. Those biological considerations which are IMMEDIATE;Behavioral/Cognitive Neuroscience (i.e. how the nervous and endocrine systems influence behaviors/thoughts)
proximate biological considerations
endogenous
amygdala
monoamines