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need questions 4,8 and 10 done, ignore the rest!
Neuroscience3600 Problem Set 4
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Please write neatly and give complete, but concise, answers. Point credit for each problem shown to
the left (total of 20 pts).
1. (6 pts) What’s the difference between an EPSP and an action potential? Compare and contrast
these two potentials. Consider the ions involved, types of channels, duration, amplitude,
triggering events, and mechanisms of depolarization.
2. (1 pt) Do EPSPs show an after-hyperpolarization? Why or why not?
3. (0.5 pt) True of False: The key determinant of whether a synapse is excitatory or inhibitory is
the identity of the neurotransmitter. Briefly explain your answer.
4. (3 pts) Measurements used to determine the reversal potential of a particular synapse are
shown below. Separate experiments confirm that changing Cl- and Ca
2
+ concentrations have
no effect on these results.
a) Plot the results on the I-V plot at right (approximate values are sufficient) and identify the
reversal potential.
b) What can you say about the relative contribution of each permeant ion to the reversal
potential? Explain your reasoning.
c) Describe a manipulation that would shift the reversal potential downward to around 0 mV.
5. (1 pt) The medial prefrontal cortex (mPFC) and striatum both receive a dopaminergic
projection from the ventral tegmental area (VTA). You hypothesize that the same VTA cells that
innervate the mPFC also send a parallel projection (also called a collateral axon) to the striatum.
The alternative hypothesis is that there are separate sub-populations in VTA, with one group of
Neuroscience 3600 Problem Set 4
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cells projecting solely to mPFC and a separate group projecting to NA. How would you test to
discriminate between these two hypotheses?
6. (1 pt) The following electron micrograph shows a close-up of an axon (A) and two dendrites,
labeled D1 and D2. Is there anything unusual about these dendrites vis-à-vis their ability to
communicate? If so, what? Describe any evidence you use to reach your conclusion.
7. (1.5) Describe three mechanisms whereby an drug or toxin can enhance neurotransmission. For
each mechanism, cite a specific example (the drug and the affected neurotransmitter) and
briefly describe its mechanism of action.
8. (3 pts) The membrane potential, Em, of a post-synaptic cell can be calculated from the following
equation:
where grest is the leakage current which maintains the resting potential, Erest is the normal
resting potential, gE is the conductance due to excitatory post-synaptic channels (e.g., AMPA
channels), ErevE is the reversal potential for the excitatory channels, gI is the conductance due to
inhibitory post-synaptic channels (e.g., GABA channels) and ErevI is the reversal potential for the
inhibitory channels (this equation comes from the equivalence circuit discussed in Lecture 13 &
14, slide 21). Assume grest = 1 milliSiemens, Erest = -65 mV, ErevE = -10 mV, ErevI = -70 mV.
a) If gE at the peak of the EPSP is 2 milliSiemens, what is the height of the EPSP without an IPSP
(i.e., what is the change in potential from resting)?
b) If gI at the peak of the IPSP is 1 milliSiemens, what is the change in potential from resting?
c) What is the sum of the peak IPSP voltage change and the peak EPSP voltage change?
d) What is the net change in synaptic potential when an EPSP and IPSP occur simultaneously?
Why is your answer different from the simple sum of potentials in part c?
Neuroscience 3600 Problem Set 4
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9. (1 pt) A cell receives two synaptic inputs at adjacent locations on a dendritic branch. Each
synapse, when activated by a single pre-synaptic spike, produces a depolarizing EPSP. From
resting potential, these EPSPs create a peak voltage change of +18 mV. If the resting potential is
-80 mV and threshold for spike generation is -40 mV, can these two synapses ever cause a spike
in the post-synaptic cell? Explain.
10. (2 pts) The left two columns in the figure below (Fig 5.20 from your book) show ion flow and net
current during an EPSP at different clamp voltages in an ACh channel that is equally permeable
to both Na+ and K+. Now, assume that Na+ concentration inside is equal to the outside Na+
concentration. In the right two columns, show ion flow and net current during an EPSP under
these new conditions.
