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Perforin affects regeneration in a mouse spinal cord injury model
Igor Jakovcevski,
Melitta Schachner
School of Arts and Sciences, Center for Collaborative Neuroscience
Brain Health Institute
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Keyphrases
Astrocytes
33%
Axon
16%
B Cells
16%
B Lymphocytes
16%
Basso Mouse Scale
16%
Cholinergic Synapse
16%
Components of the Immune System
16%
Compression Injury
16%
Cytotoxic Lymphocytes
16%
Frame Motion
16%
Gene-deficient Mice
16%
Genomic Deletion
16%
Immune Response
16%
Immunohistochemical Analysis
16%
Injury Levels
16%
Lesion Site
33%
Littermate Controls
16%
Locomotion
16%
Locomotor
33%
Lower Thoracic Spine
16%
Macrophages
33%
Microglia
33%
Motion Analysis
16%
Motor Recovery
16%
Mouse Spinal Cord
100%
Natural Killer Cells
16%
Natural Killer Lymphocytes
16%
Neurofilament
16%
Perforin
100%
Proteolytic Activity
16%
Recombination Activating Gene 2
50%
Regeneration
100%
Reinnervation
16%
Spinal Cord Injury
33%
Spinal Cord Injury Model
100%
Spinal Motor Neurons
16%
T Cells
33%
Thoracic Spinal Cord
16%
Immunology and Microbiology
Astrocyte
33%
Axon
16%
B Cell
33%
Cholinergic Synapse
16%
Components of the Immune System
16%
Cytotoxic Lymphocyte
16%
Gene Deletion
16%
Immune Response
16%
Macrophage
33%
Microglia
33%
Motion
16%
Natural Killer Cell
16%
Neurofilament
16%
Perforin
100%
Protein Degradation
16%
Recombination-Activating Gene
50%
Reinnervation
16%
Spinal Cord
100%
T Cell
16%
Thoracic Spinal Cord
16%
Wild Type
33%
Neuroscience
Astrocyte
33%
Axon
16%
B Cell
33%
Cholinergic
33%
Gene Deletion
16%
Locomotion
16%
Lymphocyte
16%
Macrophage
33%
Microglia
33%
Natural Killer Cell
16%
Neurofilament
16%
Perforin
100%
Reinnervation
16%
Spinal Cord Injury
100%
Synapse
16%
T Cell
16%