Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse

Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse

10.1186/s13024-018-0259-3

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Main Authors: Kusko R., Dreymann J., Ross J., Cha Y., Escalante-Chong R., Garcia-Miralles M., Tan L.J., Burczynski M.E., Zeskind B., Laifenfeld D., Pouladi M., Geva M., Grossman I., Hayden M.R.
Other Authors: PHYSIOLOGY
Format: Article
Published: BioMed Central Ltd. 2019
Subjects:
Huntington disease
Movement disorders
Neurodegeneration
Online Access:http://scholarbank.nus.edu.sg/handle/10635/151718
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1517182024-04-04T01:09:23Z Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse Kusko R. Dreymann J. Ross J. Cha Y. Escalante-Chong R. Garcia-Miralles M. Tan L.J. Burczynski M.E. Zeskind B. Laifenfeld D. Pouladi M. Geva M. Grossman I. Hayden M.R. PHYSIOLOGY DEPT OF MEDICINE DEAN'S OFFICE (MEDICINE) Huntington disease Movement disorders Neurodegeneration 10.1186/s13024-018-0259-3 Molecular Neurodegeneration 13 1 25 2019-02-23T03:56:00Z 2019-02-23T03:56:00Z 2018 Article Kusko R., Dreymann J., Ross J., Cha Y., Escalante-Chong R., Garcia-Miralles M., Tan L.J., Burczynski M.E., Zeskind B., Laifenfeld D., Pouladi M., Geva M., Grossman I., Hayden M.R. (2018). Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse. Molecular Neurodegeneration 13 (1) : 25. ScholarBank@NUS Repository. https://doi.org/10.1186/s13024-018-0259-3 17501326 http://scholarbank.nus.edu.sg/handle/10635/151718 BioMed Central Ltd. Scopus
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Huntington disease
Movement disorders
Neurodegeneration
spellingShingle Huntington disease
Movement disorders
Neurodegeneration
Kusko R.
Dreymann J.
Ross J.
Cha Y.
Escalante-Chong R.
Garcia-Miralles M.
Tan L.J.
Burczynski M.E.
Zeskind B.
Laifenfeld D.
Pouladi M.
Geva M.
Grossman I.
Hayden M.R.
Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse
description 10.1186/s13024-018-0259-3
author2 PHYSIOLOGY
author_facet PHYSIOLOGY
Kusko R.
Dreymann J.
Ross J.
Cha Y.
Escalante-Chong R.
Garcia-Miralles M.
Tan L.J.
Burczynski M.E.
Zeskind B.
Laifenfeld D.
Pouladi M.
Geva M.
Grossman I.
Hayden M.R.
format Article
author Kusko R.
Dreymann J.
Ross J.
Cha Y.
Escalante-Chong R.
Garcia-Miralles M.
Tan L.J.
Burczynski M.E.
Zeskind B.
Laifenfeld D.
Pouladi M.
Geva M.
Grossman I.
Hayden M.R.
author_sort Kusko R.
title Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse
title_short Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse
title_full Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse
title_fullStr Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse
title_full_unstemmed Large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the YAC128 HD mouse
title_sort large-scale transcriptomic analysis reveals that pridopidine reverses aberrant gene expression and activates neuroprotective pathways in the yac128 hd mouse
publisher BioMed Central Ltd.
publishDate 2019
url http://scholarbank.nus.edu.sg/handle/10635/151718
_version_ 1795373912778866688

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