Michael A Farries
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Explore the profile of Michael A Farries including associated specialties, affiliations and a list of published articles.
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17
Citations
506
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Recent Articles
1.
Farries M, Faust T, Mohebi A, Berke J
Curr Biol
. 2023 Sep;
33(19):4124-4135.e5.
PMID: 37703876
Basal ganglia (BG) circuits help guide and invigorate actions using predictions of future rewards (values). Within the BG, the globus pallidus pars externa (GPe) may play an essential role in...
2.
Gilmer J, Farries M, Kilpatrick Z, Delis I, Cohen J, Person A
J Neurophysiol
. 2022 Nov;
129(1):159-176.
PMID: 36416445
The cerebellum is considered a "learning machine" essential for time interval estimation underlying motor coordination and other behaviors. Theoretical work has proposed that the cerebellum's input recipient structure, the granule...
3.
Wilson C, Barraza D, Troyer T, Farries M
PLoS Comput Biol
. 2014 May;
10(5):e1003612.
PMID: 24809636
We used phase resetting methods to predict firing patterns of rat subthalamic nucleus (STN) neurons when their rhythmic firing was densely perturbed by noise. We applied sequences of contiguous brief...
4.
5.
Goldberg J, Farries M, Fee M
Trends Neurosci
. 2013 Nov;
36(12):695-705.
PMID: 24188636
The basal ganglia (BG)-recipient thalamus controls motor output but it remains unclear how its activity is regulated. Several studies report that thalamic activation occurs via disinhibition during pauses in the...
6.
Farries M, Wilson C
J Neurophysiol
. 2012 Jul;
108(7):1838-55.
PMID: 22786959
Experimental evidence indicates that the response of subthalamic neurons to excitatory postsynaptic potentials (EPSPs) is well described by their infinitesimal phase response curves (iPRC). However, the factors controlling the shape...
7.
Farries M, Wilson C
J Neurophysiol
. 2012 Jul;
108(7):1822-37.
PMID: 22786957
Infinitesimal phase response curves (iPRCs) provide a simple description of the response of repetitively firing neurons and may be used to predict responses to any pattern of synaptic input. Their...
8.
Integration of cortical and pallidal inputs in the basal ganglia-recipient thalamus of singing birds
Goldberg J, Farries M, Fee M
J Neurophysiol
. 2012 Jun;
108(5):1403-29.
PMID: 22673333
The basal ganglia-recipient thalamus receives inhibitory inputs from the pallidum and excitatory inputs from cortex, but it is unclear how these inputs interact during behavior. We recorded simultaneously from thalamic...
9.
Farries M, Kita H, Wilson C
J Neurosci
. 2010 Oct;
30(39):13180-91.
PMID: 20881137
The subthalamic nucleus (STN) provides a second entry point for cortical input to the basal ganglia, supplementing the corticostriatal pathway. We examined the way intrinsic properties shape the response of...
10.
Person A, Gale S, Farries M, Perkel D
J Comp Neurol
. 2008 Apr;
508(5):840-66.
PMID: 18398825
Area X is a songbird basal ganglia nucleus that is required for vocal learning. Both Area X and its immediate surround, the medial striatum (MSt), contain cells displaying either striatal...