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Masamitsu Hara et al.
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Wenhao Chen et al.
BRAIN RESEARCH BULLETIN (2017)
ImageJ2: ImageJ for the next generation of scientific image data
Curtis T. Rueden et al.
BMC BIOINFORMATICS (2017)
STAT3 and SOCS3 regulate NG2 cell proliferation and differentiation after contusive spinal cord injury
Amber R. Hackett et al.
NEUROBIOLOGY OF DISEASE (2016)
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Amber R. Hackett et al.
FRONTIERS IN NEUROLOGY (2016)
Macrophage activation and its role in repair and pathology after spinal cord injury
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Notch1-STAT3-ETBR signaling axis controls reactive astrocyte proliferation after brain injury
Matthew D. LeComte et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2015)
HTSeq-a Python framework to work with high-throughput sequencing data
Simon Anders et al.
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Causal analysis approaches in Ingenuity Pathway Analysis
Andreas Kraemer et al.
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Regeneration of the damaged central nervous system through reprogramming technology: Basic concepts and potential application for cell replacement therapy
Takeshi Matsui et al.
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Neural stem cells in the adult spinal cord
Hanna Sabelstrom et al.
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Nkx6.1 regulates islet β-cell proliferation via Nr4a1 and Nr4a3 nuclear receptors
Jeffery S. Tessem et al.
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Zhida Su et al.
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Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2
Michael I. Love et al.
GENOME BIOLOGY (2014)
STAR: ultrafast universal RNA-seq aligner
Alexander Dobin et al.
BIOINFORMATICS (2013)
Perivascular Fibroblasts Form the Fibrotic Scar after Contusive Spinal Cord Injury
Cynthia Soderblom et al.
JOURNAL OF NEUROSCIENCE (2013)
Protective astrogenesis from the SVZ niche after injury is controlled by Notch modulator Thbs4
Eric J. Benner et al.
NATURE (2013)
A cis-element in the Notch1 locus is involved in the regulation of gene expression in interneuron progenitors
Evangeline Tzatzalos et al.
DEVELOPMENTAL BIOLOGY (2012)
Lesion-induced generation of interneuron cell types in specific dorsoventral domains in the spinal cord of adult zebrafish
Veronika Kuscha et al.
JOURNAL OF COMPARATIVE NEUROLOGY (2012)
NIH Image to ImageJ: 25 years of image analysis
Caroline A. Schneider et al.
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Not(ch) just development: Notch signalling in the adult brain
Jessica L. Ables et al.
NATURE REVIEWS NEUROSCIENCE (2011)
Notch in the Vertebrate Nervous System: An Old Dog with New Tricks
Tarran Pierfelice et al.
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Differential expression analysis for sequence count data
Simon Anders et al.
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Production, concentration and titration of pseudotyped HIV-1-based lentiviral vectors
Robert H. Kutner et al.
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Fanie Barnabe-Heider et al.
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Konstantinos Meletis et al.
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Distinct types of microglial activation in white and grey matter of rat lumbosacral cord after mid-thoracic spinal transection
Sarah M. Mckay et al.
JOURNAL OF NEUROPATHOLOGY AND EXPERIMENTAL NEUROLOGY (2007)
Basso mouse scale for locomotion detects differences in recovery after spinal cord in ury in five common mouse strains
DM Basso et al.
JOURNAL OF NEUROTRAUMA (2006)
Notch signaling in astrocytes and neuroblasts of the adult subventricular zone in health and after cortical injury
MI Givogri et al.
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Proliferation, migration, and differentiation of endogenous ependymal region stem/progenitor cells following minimal spinal cord injury in the adult rat
AJ Mothe et al.
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Reactive astrocytes protect tissue and preserve function after spinal cord injury
JR Faulkner et al.
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Chondroitin sulphate proteoglycans: preventing plasticity or protecting the CNS?
KE Rhodes et al.
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The chondroitin sulfate proteoglycans neurocan, brevican, phosphacan, and versican are differentially regulated following spinal cord injury
LL Jones et al.
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Molecular mapping of the origin of postnatal spinal cord ependymal cells: Evidence that adult ependymal cells are derived from Nkx6.1+ventral neural progenitor cells
H Fu et al.
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Transcription factor expression and notch-dependent regulation of neural progenitors in the adult rat spinal cord
S Yamamoto et al.
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Different levels of repressor activity assign redundant and specific roles to Nkx6 genes in motor neuron and interneuron specification
A Vallstedt et al.
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Ventral neural patterning by Nkx homeobox genes: Nkx6.1 controls somatic motor neuron and ventral interneuron fates
M Sander et al.
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