Add to ORKGPurposeThe purpose of this study was to characterize the ability of applied electrical fields (EFs) to direct retinal ganglion cell (RGC) axon growth as well as to assess whether Rho GTPases play a role in translating electrical cues to directional cues.MethodsFull-thickness, early postnatal mouse retina was cultured in electrotaxis chambers and exposed to EFs of varying strengths (50-200 mV/mm). The direction of RGC axon growth was quantified from time-lapsed videos. The rate of axon growth and responsiveness to changes in EF polarity were also assessed. The effect of toxin B, a broad-spectrum inhibitor of Rho GTPase signaling, and Z62954982, a selective inhibitor of Rac1, on EF-directed growth was determined.ResultsIn the absence of an EF...
The eye is a highly specialized structure that gathers and converts light information into neuronal ...
ABSTRACT: Studies in vitro have revealed a great deal about growth cone behaviors, especially respon...
Prior to the onset of sensory experience neural circuits develop through a combination of genetic in...
PurposeThe purpose of this study was to characterize the ability of applied electrical fields (EFs) ...
Restoration of vision in patients with advanced optic neuropathies such as glaucoma requires regener...
Cell transplantation-based approaches to restore vision in patients blinded by advanced optic neurop...
AbstractGrowing axons are directed by an extracellular electric field in a process known as galvanot...
The targeting and refinement of retinal projections to their primary targets in the brain has served...
Endogenous electric fields (EFs) are present during development and regeneration. Enhancing the end...
Abstract Retinal ganglion cell (RGC) axons converge on the optic disc to form an optic nerve. Howeve...
Regenerating the optic nerve requires signals that both "fuel" and "steer" retinal ganglion cell (RG...
Proper function of the nervous system depends upon the patterns of neural connections established th...
Low-level, steady electric fields of 6–10 volts/cm stimulated directional orientation and translocat...
Axon growth and alignment are fundamental processes during nervous system development and neural reg...
Numerous studies have shown that the developing tip of a neurite, the growth cone, can respond to en...
The eye is a highly specialized structure that gathers and converts light information into neuronal ...
ABSTRACT: Studies in vitro have revealed a great deal about growth cone behaviors, especially respon...
Prior to the onset of sensory experience neural circuits develop through a combination of genetic in...
PurposeThe purpose of this study was to characterize the ability of applied electrical fields (EFs) ...
Restoration of vision in patients with advanced optic neuropathies such as glaucoma requires regener...
Cell transplantation-based approaches to restore vision in patients blinded by advanced optic neurop...
AbstractGrowing axons are directed by an extracellular electric field in a process known as galvanot...
The targeting and refinement of retinal projections to their primary targets in the brain has served...
Endogenous electric fields (EFs) are present during development and regeneration. Enhancing the end...
Abstract Retinal ganglion cell (RGC) axons converge on the optic disc to form an optic nerve. Howeve...
Regenerating the optic nerve requires signals that both "fuel" and "steer" retinal ganglion cell (RG...
Proper function of the nervous system depends upon the patterns of neural connections established th...
Low-level, steady electric fields of 6–10 volts/cm stimulated directional orientation and translocat...
Axon growth and alignment are fundamental processes during nervous system development and neural reg...
Numerous studies have shown that the developing tip of a neurite, the growth cone, can respond to en...
The eye is a highly specialized structure that gathers and converts light information into neuronal ...
ABSTRACT: Studies in vitro have revealed a great deal about growth cone behaviors, especially respon...
Prior to the onset of sensory experience neural circuits develop through a combination of genetic in...