https://www.biorxiv.org/content/10.1101/2025.08.15.670540v1
John E. Parker, Asier Aristieta, Ya Emma Gao, Aryn H. Gittis, Jonathan E. Rubin
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APA
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Parker, J. E., Aristieta, A., Gao, Y. E., Gittis, A. H., & Rubin, J. E. Reduced TRPC3 conductance underlies altered SNr activity under dopamine depletion: predictions from data-driven network models.
Chicago/Turabian
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Parker, John E., Asier Aristieta, Ya Emma Gao, Aryn H. Gittis, and Jonathan E. Rubin. “Reduced TRPC3 Conductance Underlies Altered SNr Activity under Dopamine Depletion: Predictions from Data-Driven Network Models” (n.d.).
MLA
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Parker, John E., et al. Reduced TRPC3 Conductance Underlies Altered SNr Activity under Dopamine Depletion: Predictions from Data-Driven Network Models.
BibTeX Click to copy
@article{john-a,
title = {Reduced TRPC3 conductance underlies altered SNr activity under dopamine depletion: predictions from data-driven network models},
author = {Parker, John E. and Aristieta, Asier and Gao, Ya Emma and Gittis, Aryn H. and Rubin, Jonathan E.}
}