Pages that link to "Q43770562"

The following pages link to Topographic-specific axon branching controlled by ephrin-As is the critical event in retinotectal map development. (Q43770562):

Displaying 50 items.

• A TrkB/EphrinA interaction controls retinal axon branching and synaptogenesis (Q24318622) (← links)
• Growth cone pathfinding: a competition between deterministic and stochastic events (Q24796184) (← links)
• Branch management: mechanisms of axon branching in the developing vertebrate CNS (Q27022646) (← links)
• EphA3 expressed in the chicken tectum stimulates nasal retinal ganglion cell axon growth and is required for retinotectal topographic map formation (Q27301425) (← links)
• Quantitative Analysis of Axonal Branch Dynamics in the Developing Nervous System (Q27316612) (← links)
• SPIG1 negatively regulates BDNF maturation (Q28505994) (← links)
• BMP receptor 1b is required for axon guidance and cell survival in the developing retina (Q28507158) (← links)
• N-cadherin regulates ingrowth and laminar targeting of thalamocortical axons (Q28583211) (← links)
• The L1 cell adhesion molecule is essential for topographic mapping of retinal axons (Q28591838) (← links)
• A gene expression atlas of the central nervous system based on bacterial artificial chromosomes (Q29617753) (← links)
• Eph receptor signalling casts a wide net on cell behaviour (Q29619988) (← links)
• Age-related decrease of the chorda tympani nerve terminal field in the nucleus of the solitary tract is prevented by dietary sodium restriction during development. (Q30357492) (← links)
• Retinotopic mapping requires focal adhesion kinase-mediated regulation of growth cone adhesion. (Q30437621) (← links)
• Expression patterns of Ephs and ephrins throughout retinotectal development in Xenopus laevis (Q30520033) (← links)
• Ephrin-A5 restricts topographically specific arborization in the chick retinotectal projection in vivo (Q31098052) (← links)
• A Wnt-planar polarity pathway instructs neurite branching by restricting F-actin assembly through endosomal signaling. (Q33585370) (← links)
• A relative signalling model for the formation of a topographic neural map. (Q33982342) (← links)
• The interplay between branching and pruning on neuronal target search during developmental growth: functional role and implications (Q34058255) (← links)
• Ultra-rapid laser protein micropatterning: screening for directed polarization of single neurons (Q34273034) (← links)
• Development of the retina and optic pathway (Q34284186) (← links)
• Netrin-4 regulates thalamocortical axon branching in an activity-dependent fashion (Q34408867) (← links)
• Ephrin-As as receptors in topographic projections (Q34536346) (← links)
• Eph family functions from an evolutionary perspective (Q34723511) (← links)
• Development of columnar topography in the excitatory layer 4 to layer 2/3 projection in rat barrel cortex. (Q34731794) (← links)
• Neuron glia-related cell adhesion molecule (NrCAM) promotes topographic retinocollicular mapping (Q34984178) (← links)
• Wiring of the brain by a range of guidance cues. (Q35063218) (← links)
• Regulation of axial patterning of the retina and its topographic mapping in the brain. (Q35068992) (← links)
• EphB regulates L1 phosphorylation during retinocollicular mapping. (Q35154544) (← links)
• Axon pruning: an essential step underlying the developmental plasticity of neuronal connections (Q35172122) (← links)
• Modeling development in retinal afferents: retinotopy, segregation, and ephrinA/EphA mutants (Q35224761) (← links)
• Bilateral enucleation alters gene expression and intraneocortical connections in the mouse (Q38635770) (← links)
• Mechanisms of retinotopic map development: Ephs, ephrins, and spontaneous correlated retinal activity (Q35974447) (← links)
• Stochastic Interaction between Neural Activity and Molecular Cues in the Formation of Topographic Maps (Q36094421) (← links)
• New model of retinocollicular mapping predicts the mechanisms of axonal competition and explains the role of reverse molecular signaling during development (Q36112108) (← links)
• The receptor guanylyl cyclase Npr2 is essential for sensory axon bifurcation within the spinal cord. (Q36119604) (← links)
• Axon retraction and degeneration in development and disease (Q36196519) (← links)
• Mechanisms of axon guidance in the developing nervous system. (Q36294315) (← links)
• Molecular control of axon branching (Q36374259) (← links)
• Dynamic responses of Xenopus retinal ganglion cell axon growth cones to netrin‐1 as they innervate their in vivo target (Q36383756) (← links)
• Role of EphA/ephrin--a signaling in the development of topographic maps in mouse corticothalamic projections (Q36438044) (← links)
• Cdk5 regulates developmental remodeling of mushroom body neurons in Drosophila. (Q36469803) (← links)
• Endocytosis-dependent desensitization and protein synthesis-dependent resensitization in retinal growth cone adaptation (Q36929245) (← links)
• Mechanisms of axon degeneration: from development to disease (Q36932883) (← links)
• N- and C-terminal domains of beta-catenin, respectively, are required to initiate and shape axon arbors of retinal ganglion cells in vivo (Q37218744) (← links)
• Theoretical models of neural circuit development. (Q37475582) (← links)
• BDNF promotes axon branching of retinal ganglion cells via miRNA-132 and p250GAP. (Q37479550) (← links)
• Activity-dependent modulation of neural circuit synaptic connectivity (Q37577454) (← links)
• A molecular mechanism for the topographic alignment of convergent neural maps. (Q37714181) (← links)
• Visual Map Development: Bidirectional Signaling, Bifunctional Guidance Molecules, and Competition (Q37794523) (← links)
• Developmental regulation of axon branching in the vertebrate nervous system (Q37823002) (← links)