受强制性开放获取政策约束的文章 - Shalaka Wahane了解详情
可在其他位置公开访问的文章:9 篇
Microglia and macrophages promote corralling, wound compaction and recovery after spinal cord injury via Plexin-B2
X Zhou, S Wahane, MS Friedl, M Kluge, CC Friedel, K Avrampou, ...
Nature neuroscience 23 (3), 337-350, 2020
强制性开放获取政策: US National Institutes of Health, German Research Foundation
HDAC3 inhibition ameliorates spinal cord injury by immunomodulation
T Kuboyama, S Wahane, Y Huang, X Zhou, JK Wong, A Koemeter-Cox, ...
Scientific reports 7 (1), 8641, 2017
强制性开放获取政策: US National Institutes of Health
Diversified transcriptional responses of myeloid and glial cells in spinal cord injury shaped by HDAC3 activity
S Wahane, X Zhou, X Zhou, L Guo, MS Friedl, M Kluge, A Ramakrishnan, ...
Science Advances 7 (9), eabd8811, 2021
强制性开放获取政策: US National Institutes of Health, German Research Foundation
Neural deletion of Tgfbr2 impairs angiogenesis through an altered secretome
N Hellbach, SC Weise, R Vezzali, SD Wahane, S Heidrich, D Roidl, ...
Human molecular genetics 23 (23), 6177-6190, 2014
强制性开放获取政策: German Research Foundation
Epigenetic regulation of axon regeneration and glial activation in injury responses
S Wahane, D Halawani, X Zhou, H Zou
Frontiers in genetics 10, 640, 2019
强制性开放获取政策: US National Institutes of Health
RNA profiling of mouse ependymal cells after spinal cord injury identifies the oncostatin pathway as a potential key regulator of spinal cord stem cell fate
R Chevreau, H Ghazale, C Ripoll, C Chalfouh, Q Delarue, ...
Cells 10 (12), 3332, 2021
强制性开放获取政策: Agence Nationale de la Recherche
Loss-of-function manipulations to identify roles of diverse glia and stromal cells during CNS scar formation
S Wahane, MV Sofroniew
Cell and Tissue Research 387 (3), 337, 2021
强制性开放获取政策: US National Institutes of Health
Review article for CTR special issue edited by C. Schachtrup Title of Special Issue:“Modulating scar formation for improving brain repair” loss-of-function manipulations to …
S Wahane, MV Sofroniew
Cell and Tissue Research, 1-14, 2021
强制性开放获取政策: US National Institutes of Health
Reaction of ependymal cells to spinal cord injury: a potential role for oncostatin pathway and microglial cells
R Chevreau, H Ghazale, C Ripoll, C Chalfouh, Q Delarue, ...
BioRxiv, 2021.02. 12.428106, 2021
强制性开放获取政策: Agence Nationale de la Recherche
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