AbstractThere is now considerable evidence of the importance of mechanical cues in neuronal development and regeneration. Motivated by the difference in the mechanical properties of the tissue environment between the peripheral (PNS) and central (CNS) nervous systems, we compare substrate-stiffness-dependent outgrowth and traction forces from PNS (dorsal root ganglion (DRG)) and CNS (hippocampal) neurons. We show that neurites from DRG neurons display maximal outgrowth on substrates with a Young's modulus of ∼1000 Pa, whereas hippocampal neurite outgrowth is independent of substrate stiffness. Using traction force microscopy, we also find a substantial difference in growth cone traction force generation, with DRG growth cones exerting sever...
During nervous system development, neurons extend axons along well-defined pathways. The current und...
Investigations over half a century have indicated that mechanical forces induce neurite growth, with...
Background/Aims: Migration of Schwann cells (SCs) progenitors and neurite outgrowth from embryonic d...
AbstractThere is now considerable evidence of the importance of mechanical cues in neuronal developm...
Mechanical properties such as force generation are fundamental for neuronal motility, development an...
<div><p>Mechanical properties such as force generation are fundamental for neuronal motility, develo...
Understanding the dynamical and molecular properties of force generation in neuronal growth cones i...
Mechanical properties such as force generation are fundamental for neuronal motility, development an...
AbstractRecent results indicate that, in addition to chemical cues, mechanical stimuli may also impa...
AbstractDetailed knowledge of mechanical parameters such as cell elasticity, stiffness of the growth...
Neurite outgrowth underlies the wiring of the nervous system during development and regeneration. De...
AbstractAlthough pulling forces have been observed in axonal growth for several decades, their under...
Growth cones are the main motile structures located at the tip of neurites and are composed of a lam...
Sensory-motile cells fulfill various biological functions ranging from immune activity or wound heal...
A prior peripheral nerve injury in vivo, promotes a rapid elongated mode of sensory neurons neurite ...
During nervous system development, neurons extend axons along well-defined pathways. The current und...
Investigations over half a century have indicated that mechanical forces induce neurite growth, with...
Background/Aims: Migration of Schwann cells (SCs) progenitors and neurite outgrowth from embryonic d...
AbstractThere is now considerable evidence of the importance of mechanical cues in neuronal developm...
Mechanical properties such as force generation are fundamental for neuronal motility, development an...
<div><p>Mechanical properties such as force generation are fundamental for neuronal motility, develo...
Understanding the dynamical and molecular properties of force generation in neuronal growth cones i...
Mechanical properties such as force generation are fundamental for neuronal motility, development an...
AbstractRecent results indicate that, in addition to chemical cues, mechanical stimuli may also impa...
AbstractDetailed knowledge of mechanical parameters such as cell elasticity, stiffness of the growth...
Neurite outgrowth underlies the wiring of the nervous system during development and regeneration. De...
AbstractAlthough pulling forces have been observed in axonal growth for several decades, their under...
Growth cones are the main motile structures located at the tip of neurites and are composed of a lam...
Sensory-motile cells fulfill various biological functions ranging from immune activity or wound heal...
A prior peripheral nerve injury in vivo, promotes a rapid elongated mode of sensory neurons neurite ...
During nervous system development, neurons extend axons along well-defined pathways. The current und...
Investigations over half a century have indicated that mechanical forces induce neurite growth, with...
Background/Aims: Migration of Schwann cells (SCs) progenitors and neurite outgrowth from embryonic d...