Add to ORKGA mathematical model is developed to describe and investigate interstitial branching of axonal networks during nervous system development. The model under consideration describes axonal network growth in which the concentration of axon guidance molecules controls axon's growth and interstitial branching from axon shaft. Numerical simulations show that in the model framework axonal networks branch similarly to real neural networks in vitro. © 2013 Imperial College Press
The development of neural tissue is a complex organizing process, in which it is difficult to grasp ...
Injections of neural tracers into many mammalian neocortical areas reveal a common patchy motif of c...
Axon branching is a critical process ensuring a high degree of interconnectivity for neural network ...
A mathematical model is developed to describe and investigate interstitial branching of axonal netwo...
A single axon can generate branches connecting with plenty synaptic targets. Process of branching is...
International audienceNeurite extension is essential to establish complex neuronal circuits during b...
Abstract The growth and guidance of axons is an undertaking of both great complexity and great preci...
The growth and guidance of axons is an undertaking of both great complexity and great precision, inv...
International audienceNeurite extension is essential to establish complex neuronal circuits during b...
The establishment of a functioning neuronal network is a crucial step in neural development. During ...
Relating structure and function of neuronal circuits is a challenging problem. It requires demonstra...
<div><p>Relating structure and function of neuronal circuits is a challenging problem. It requires d...
Proper wiring up of the nervous system is critical to the development of organisms capable of comple...
International audienceThe confined and crowded environment of developing brains imposes spatial cons...
During development, axons grow along specific path-ways, reach their target zones, and form branches...
The development of neural tissue is a complex organizing process, in which it is difficult to grasp ...
Injections of neural tracers into many mammalian neocortical areas reveal a common patchy motif of c...
Axon branching is a critical process ensuring a high degree of interconnectivity for neural network ...
A mathematical model is developed to describe and investigate interstitial branching of axonal netwo...
A single axon can generate branches connecting with plenty synaptic targets. Process of branching is...
International audienceNeurite extension is essential to establish complex neuronal circuits during b...
Abstract The growth and guidance of axons is an undertaking of both great complexity and great preci...
The growth and guidance of axons is an undertaking of both great complexity and great precision, inv...
International audienceNeurite extension is essential to establish complex neuronal circuits during b...
The establishment of a functioning neuronal network is a crucial step in neural development. During ...
Relating structure and function of neuronal circuits is a challenging problem. It requires demonstra...
<div><p>Relating structure and function of neuronal circuits is a challenging problem. It requires d...
Proper wiring up of the nervous system is critical to the development of organisms capable of comple...
International audienceThe confined and crowded environment of developing brains imposes spatial cons...
During development, axons grow along specific path-ways, reach their target zones, and form branches...
The development of neural tissue is a complex organizing process, in which it is difficult to grasp ...
Injections of neural tracers into many mammalian neocortical areas reveal a common patchy motif of c...
Axon branching is a critical process ensuring a high degree of interconnectivity for neural network ...