Past Seminars

Here is the list of our past seminars:


Romain Brette (Institut de la Vision, UPMC). ENS-ESPCI Biophysics Seminar - Clement Nizak, Olivia Du Roure

Neuronal geometry and excitability

Most theoretical studies on neural excitability have dealt with either
isopotential membranes, for example the space-clamped squid axon, or
homogeneous axons. However, in most vertebrate neurons, action
potentials are initiated in a small region of the axon, the axonal
initial segment (AIS), packed with sodium channels and placed very
close to the soma. Thus there is a spatial discontinuity in channel
properties and geometry (large soma, thin axon). In addition, both the
length and position of the AIS can vary with activity. In this
presentation, I will show how neuron and AIS geometry impact the
initiation of action potentials and their backpropagation to the soma.






Recent seminars  (0)


Romain Brette (Institut de la Vision, UPMC). ENS-ESPCI Biophysics Seminar - Clement Nizak, Olivia Du Roure

Neuronal geometry and excitability

Most theoretical studies on neural excitability have dealt with either
isopotential membranes, for example the space-clamped squid axon, or
homogeneous axons. However, in most vertebrate neurons, action
potentials are initiated in a small region of the axon, the axonal
initial segment (AIS), packed with sodium channels and placed very
close to the soma. Thus there is a spatial discontinuity in channel
properties and geometry (large soma, thin axon). In addition, both the
length and position of the AIS can vary with activity. In this
presentation, I will show how neuron and AIS geometry impact the
initiation of action potentials and their backpropagation to the soma.






Seminar archive  (219)


Top



See also...

Register /Unregister

Click here to register or to unregister to our newsletter. 

> More...

How master regulators coordinate antibiotic resistance without sacrificing downstream specialization

Invited Speaker: Nicholas Rossi (University of Vermont). How master regulators coordinate antibiotic resistance without sacrificing downstream (...) 

> More...