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Sarah A. Paschall
Sarah A. Paschall
University of British Columbia
Dopamine
Glutamate receptor
Neurotransmission
Biology
LRRK2
3
Papers
111
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Author response: Initial elevations in glutamate and dopamine neurotransmission decline with age, as does exploratory behavior, in LRRK2 G2019S knock-in mice
2017
eLife
Mattia Volta
Dayne Beccano-Kelly
Sarah A. Paschall
Stefano Cataldi
Sarah E. Macisaac
Naila Kuhlmann
Chelsie A. Kadgien
Igor Tatarnikov
Jesse D. Fox
Jaskaran Khinda
Emma Mitchell
Sabrina Bergeron
Heather L. Melrose
Matthew J. Farrer
Austen J. Milnerwood
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Citations (1)
Initial elevations in glutamate and dopamine neurotransmission decline with age, as does exploratory behavior, in LRRK2 G2019S knock-in mice.
2017
eLife
Mattia Volta
Dayne Beccano-Kelly
Sarah A. Paschall
Stefano Cataldi
Sarah E. Macisaac
Naila Kuhlmann
Chelsie Kadgien
Igor Tatarnikov
Jesse Fox
Jaskaran Khinda
Emma Mitchell
Sabrina Bergeron
Heather L. Melrose
Matthew J. Farrer
Austen J. Milnerwood
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Citations (44)
LRRK2 overexpression alters glutamatergic presynaptic plasticity, striatal dopamine tone, postsynaptic signal transduction, motor activity and memory
2015
Human Molecular Genetics
Dayne Beccano-Kelly
Mattia Volta
Lise N. Munsie
Sarah A. Paschall
Igor Tatarnikov
Kimberley Co
Patrick Chou
Li-Ping Cao
Sabrina Bergeron
Emma Mitchell
Heather Han
Heather L. Melrose
Lucia Tapia
Lynn A. Raymond
Matthew J. Farrer
Austen J. Milnerwood
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Citations (66)
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