Add to ORKGComprehensive screens were made for genes that change their expression during a brief critical period in development when neonatal mammalian central nervous system (CNS) loses its capacity to regenerate. In newly born opossums older than 12 days regeneration ceases to occur in the cervical spinal cord. It continues for 5 more days in lumbar regions. The mRNA's expressed in cords that do and do not regenerate were analyzed by polymerase chain reaction-based subtractive hybridization. The mRNAs extracted from cervical cords of animals aged 9 and 12 days were subtracted reciprocally, old from young and young from old. Additional subtractions were made between lumbar regions of 12 day-old cords (which can regenerate) and cervical regions (which...
This study describes a combined transcriptome and proteome analysis of Monodelphis domestica respons...
For functional recovery after spinal cord injury, regenerating fibres need to grow and to reform app...
Injury to the adult central nervous system cannot be effectively repaired, leading to chronic disabi...
Comprehensive screens were made for genes that change their expression during a brief critical perio...
The aim of the present experiments was to analyze molecular mechanisms responsible for enhancing and...
Changes in gene expression have been measured 24 h after injury to mammalian spinal cords that can a...
A search for genes that promote or block CNS regeneration requires numerous approaches; for example,...
This study investigates the response to spinal cord injury in the gray short‐tailed opossum (Monodel...
This Thesis examines the molecular changes that occur in the spinal cord of the South American oposs...
One of the major challenges of modern neurobiology concerns the inability of the adult mammalian ce...
This study describes a combined transcriptome and proteome analysis of Monodelphis domestica respons...
In contrast to mammals, salamanders have a remarkable ability to regenerate their spinal cord and re...
<div><p>This study describes a combined transcriptome and proteome analysis of <i>Monodelphis domest...
Recent experiments examining the development and plasticity of the chick embryonic spinal cord have ...
Unlike the adult mammalian central nervous system (CNS) that has limited capacity for regeneration, ...
This study describes a combined transcriptome and proteome analysis of Monodelphis domestica respons...
For functional recovery after spinal cord injury, regenerating fibres need to grow and to reform app...
Injury to the adult central nervous system cannot be effectively repaired, leading to chronic disabi...
Comprehensive screens were made for genes that change their expression during a brief critical perio...
The aim of the present experiments was to analyze molecular mechanisms responsible for enhancing and...
Changes in gene expression have been measured 24 h after injury to mammalian spinal cords that can a...
A search for genes that promote or block CNS regeneration requires numerous approaches; for example,...
This study investigates the response to spinal cord injury in the gray short‐tailed opossum (Monodel...
This Thesis examines the molecular changes that occur in the spinal cord of the South American oposs...
One of the major challenges of modern neurobiology concerns the inability of the adult mammalian ce...
This study describes a combined transcriptome and proteome analysis of Monodelphis domestica respons...
In contrast to mammals, salamanders have a remarkable ability to regenerate their spinal cord and re...
<div><p>This study describes a combined transcriptome and proteome analysis of <i>Monodelphis domest...
Recent experiments examining the development and plasticity of the chick embryonic spinal cord have ...
Unlike the adult mammalian central nervous system (CNS) that has limited capacity for regeneration, ...
This study describes a combined transcriptome and proteome analysis of Monodelphis domestica respons...
For functional recovery after spinal cord injury, regenerating fibres need to grow and to reform app...
Injury to the adult central nervous system cannot be effectively repaired, leading to chronic disabi...