Add to ORKGThe central nervous system (CNS) is composed of two types of cells: neurons that send electrical signals to transmit information throughout the animal and glial cells. Glial cells were long thought to be merely support cells for the neurons; however, recent work has identified many critical roles for these cells during development and in the mature animal. In the CNS, glial cells act as the resident immune cell and they are responsible for the clearance of dead or dying material. After neuronal injury or death, glial cells become reactive, exhibiting dramatic changes in morphology and patterns of gene expression and ultimately engulfing neuronal debris. This rapid clearance of degenerating neuronal material is thought to be crucial for supp...
Nervous system injury or disease leads to activation of glia, which govern postinjury responses in t...
Glial cells perform numerous functions to support neuron development and function, including axon wr...
Neurons comprise the main information processing cells of the nervous system. To integrate and trans...
Glia are the understudied brain cells that perform many functions essential to maintain nervous syst...
After neuronal injury or death glial cells become reactive, exhibiting dramatic changes in morpholog...
The nervous system is made up of two major cell types, neurons and glia. The major distinguishing fe...
The nervous system is composed of neurons and glia. Glial cells have been neglected and thought to h...
Draper/Ced-1/MEGF-10 is an engulfment receptor that promotes clearance of cellular debris in C. eleg...
Glia, whose name derives from the original Greek word, meaning “glue,” have long been understood to ...
SummaryNeuron-glia communication is central to all nervous system responses to trauma, yet neural in...
SummaryNeuronal injury triggers robust responses from glial cells, including altered gene expression...
Emerging evidence in both vertebrates and invertebrates is redefining glia as active players in the ...
Neuronal injury triggers robust responses from glial cells, including altered gene expression and en...
The mammalian central nervous system (CNS) exhibits limited regenerative capacity and the mechanisms...
Glial cells are exquisitely sensitive to neuronal injury but mechanisms by which glia establish comp...
Nervous system injury or disease leads to activation of glia, which govern postinjury responses in t...
Glial cells perform numerous functions to support neuron development and function, including axon wr...
Neurons comprise the main information processing cells of the nervous system. To integrate and trans...
Glia are the understudied brain cells that perform many functions essential to maintain nervous syst...
After neuronal injury or death glial cells become reactive, exhibiting dramatic changes in morpholog...
The nervous system is made up of two major cell types, neurons and glia. The major distinguishing fe...
The nervous system is composed of neurons and glia. Glial cells have been neglected and thought to h...
Draper/Ced-1/MEGF-10 is an engulfment receptor that promotes clearance of cellular debris in C. eleg...
Glia, whose name derives from the original Greek word, meaning “glue,” have long been understood to ...
SummaryNeuron-glia communication is central to all nervous system responses to trauma, yet neural in...
SummaryNeuronal injury triggers robust responses from glial cells, including altered gene expression...
Emerging evidence in both vertebrates and invertebrates is redefining glia as active players in the ...
Neuronal injury triggers robust responses from glial cells, including altered gene expression and en...
The mammalian central nervous system (CNS) exhibits limited regenerative capacity and the mechanisms...
Glial cells are exquisitely sensitive to neuronal injury but mechanisms by which glia establish comp...
Nervous system injury or disease leads to activation of glia, which govern postinjury responses in t...
Glial cells perform numerous functions to support neuron development and function, including axon wr...
Neurons comprise the main information processing cells of the nervous system. To integrate and trans...