GAP-43 Protein
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Subject Areas on Research
- A neural-specific GAP-43 core promoter located between unusual DNA elements that interact to regulate its activity.
- A new millenium for spinal cord regeneration: growth-associated genes.
- A protein induced during nerve growth (GAP-43) is a major component of growth-cone membranes.
- Activity-dependent expression of RNA binding protein HuD and its association with mRNAs in neurons.
- Axonal growth-associated proteins.
- Bone Marrow Mesenchymal Stem Cell Transplantation Increases GAP-43 Expression via ERK1/2 and PI3K/Akt Pathways in Intracerebral Hemorrhage.
- Changes in the distribution of GAP-43 during the development of neuronal polarity.
- Ciliary neurotrophic factor is an axogenesis factor for retinal ganglion cells.
- Development of neuronal polarity: GAP-43 distinguishes axonal from dendritic growth cones.
- Elevated synthesis of an axonally transported protein correlates with axon outgrowth in normal and injured pyramidal tracts.
- Fate of GAP-43 in ascending spinal axons of DRG neurons after peripheral nerve injury: delayed accumulation and correlation with regenerative potential.
- GAP-43 as a 'calmodulin sponge' and some implications for calcium signalling in axon terminals.
- GAP-43 promoter elements in transgenic zebrafish reveal a difference in signals for axon growth during CNS development and regeneration.
- Identification of a novel repressive element that contributes to neuron-specific gene expression.
- Immunohistochemistry of the canine vomeronasal organ.
- Immunohistochemistry of the canine vomeronasal organ.
- Injury-associated induction of GAP-43 expression displays axon branch specificity in rat dorsal root ganglion neurons.
- Mammalian target of rapamycin (mTOR) activation increases axonal growth capacity of injured peripheral nerves.
- Multiple elements may be used for regulation of the GAP-43 gene in different cell-types.
- Neural selective activation and temporal regulation of a mammalian GAP-43 promoter in zebrafish.
- Neurotrophins differentially regulate voltage-gated ion channels.
- Novel inhibitory action of tunicamycin homologues suggests a role for dynamic protein fatty acylation in growth cone-mediated neurite extension.
- Posttranslational membrane attachment and dynamic fatty acylation of a neuronal growth cone protein, GAP-43.
- Primary structure and transcriptional regulation of GAP-43, a protein associated with nerve growth.
- Protein kinase C activity, translocation, and conventional isoforms in aging rat brain.
- Role of GAP-43 in sequestering phosphatidylinositol 4,5-bisphosphate to Raft bilayers.
- Selective conservation of GAP-43 structure in vertebrate evolution.
- Spinal axon regeneration evoked by replacing two growth cone proteins in adult neurons.
- The activity of a highly promiscuous AP-1 element can be confined to neurons by a tissue-selective repressive element.