A transcription-dependent switch controls competence of adult neurons for distinct modes of axon growth
Journal Article
Overview
publication date
has subject area
-
Afferent Pathways
-
Animals
-
Biochemical Phenomena - Transcription, Genetic
-
Biological Transport - Axonal Transport
-
Cell Physiological Phenomena - Axonal Transport
-
Cell Size
-
Cell Surface Extensions - Axons
-
Cell Surface Extensions - Neurites
-
Cells - Axons
-
Cells - Axons
-
Cells - Neurites
-
Cells - Neurites
-
Cells - Neurons, Afferent
-
Cells, Cultured
-
Diagnostic Imaging - Microscopy, Electron
-
Environment and Public Health - Age Factors
-
Ganglia - Ganglia, Spinal
-
Gene Expression - Transcription, Genetic
-
Gene Expression Regulation, Developmental
-
Genes, Switch
-
Health Care Quality, Access, and Evaluation - Age Factors
-
Investigative Techniques - Microscopy, Electron
-
Male
-
Nerve Crush
-
Nerve Tissue Proteins
-
Nervous System - Axons
-
Nervous System - Neurites
-
Nervous System - Neurites
-
Nervous System - Neurons, Afferent
-
Nervous System Physiological Phenomena - Axonal Transport
-
Nervous System Physiological Phenomena - Nerve Regeneration
-
Peripheral Nervous System - Ganglia, Spinal
-
Rats
-
Regeneration - Nerve Regeneration
-
Spinal Nerve Roots - Ganglia, Spinal
Date in CU Experts
-
September 4, 2022 8:23 AM
Full Author List
author count
citation count
published in
Other Profiles
International Standard Serial Number (ISSN)
Additional Document Info
start page
end page
volume
issue