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Wensheng Lin

Showing results (1-10 of 68) with videos related to

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Neural Regeneration Research|April 18, 2015
Impaired eIF2B activity in ligodendrocytes contributes to VWMD pathogenesisWensheng Lin
Neural Regeneration Research|March 3, 2017
Neuroprotective effects of vascular endothelial growth factor A in the experimental autoimmune encephalomyelitis model of multiple sclerosisWensheng Lin
Neural Regeneration Research|October 23, 2019
Unfolded protein response in myelin disordersWensheng Lin, Sarrabeth Stone
Nature Neuroscience|March 17, 2009
Endoplasmic reticulum stress in disorders of myelinating cellsWensheng Lin, Brian Popko
Glia|January 28, 2023
Endoplasmic reticulum associated degradation is essential for maintaining the viability or function of mature myelinating cells in adultsShuangchan Wu, Wensheng Lin
Journal of Neuroscience Research|July 22, 2010
Interferon-γ inhibits central nervous system myelination through both STAT1-dependent and STAT1-independent pathwaysWensheng Lin, Yifeng Lin
Frontiers in Neuroscience|August 19, 2015
The unfolded protein response in multiple sclerosisSarrabeth Stone, Wensheng Lin
Cells|January 22, 2024
Mechanisms Governing Oligodendrocyte Viability in Multiple Sclerosis and Its Animal ModelsZhixin Lei, Wensheng Lin
Neural Regeneration Research|March 25, 2024
The physiological role of the unfolded protein response in the nervous systemShuangchan Wu, Wensheng Lin
International Journal of Molecular Sciences|February 27, 2026
Oligodendrocytes Are Active Participants in the Pathogenesis of Multiple Sclerosis and Its Animal ModelsMin Li Lin, Wensheng Lin
Pageof 7

Showing results (1-10 of 68) with videos related to

Sort By:
Pageof 7
Neural Regeneration Research|April 18, 2015
Impaired eIF2B activity in ligodendrocytes contributes to VWMD pathogenesisWensheng Lin
Neural Regeneration Research|March 3, 2017
Neuroprotective effects of vascular endothelial growth factor A in the experimental autoimmune encephalomyelitis model of multiple sclerosisWensheng Lin
Neural Regeneration Research|October 23, 2019
Unfolded protein response in myelin disordersWensheng Lin, Sarrabeth Stone
Nature Neuroscience|March 17, 2009
Endoplasmic reticulum stress in disorders of myelinating cellsWensheng Lin, Brian Popko
Glia|January 28, 2023
Endoplasmic reticulum associated degradation is essential for maintaining the viability or function of mature myelinating cells in adultsShuangchan Wu, Wensheng Lin
Journal of Neuroscience Research|July 22, 2010
Interferon-γ inhibits central nervous system myelination through both STAT1-dependent and STAT1-independent pathwaysWensheng Lin, Yifeng Lin
Frontiers in Neuroscience|August 19, 2015
The unfolded protein response in multiple sclerosisSarrabeth Stone, Wensheng Lin
Cells|January 22, 2024
Mechanisms Governing Oligodendrocyte Viability in Multiple Sclerosis and Its Animal ModelsZhixin Lei, Wensheng Lin
Neural Regeneration Research|March 25, 2024
The physiological role of the unfolded protein response in the nervous systemShuangchan Wu, Wensheng Lin
International Journal of Molecular Sciences|February 27, 2026
Oligodendrocytes Are Active Participants in the Pathogenesis of Multiple Sclerosis and Its Animal ModelsMin Li Lin, Wensheng Lin
Pageof 7