PhD position in auditory neuroscience

Ville

Paris

Pays

France

Texte de l'offre

Processing of auditory information in the brain is complex because information not only flows from the auditory periphery to the central nervous system but also from the brain to the ear. As a result, efferent neuronal signals can modulate the mechanical properties of the cochlea. Ideally, we would like to know the cochlear output precisely to study its effect on neural representations. However, because cochlear mechanics and neuronal processing are reciprocally coupled through mechanoelectrical feedback, it will require specific tools to uncouple them and to decode the transformation of complex acoustic stimuli by the brain.
The aim of this project is to study how information about sound frequency is propagated from the auditory periphery to the cortex. To understand how sound features are encoded in the brain we would need to vary specific parameters of the input and measure how it affects neuronal firing. Recent progress in optogenetics have allowed to activate neuronal circuits precisely. Here we will use these tools to control the cochlear output and activate optogenetically cochlear hair cells in vivo. Optical methods allow to focalize the beam of a laser onto several cellular targets and rapidly update the temporal pattern of stimulation. The student will develop a setup based on holographic light patterning to be able to stimulate simultaneously (but independently) single hair cells with millisecond precision.

Date de fin de publication :

31/03/2021

Type d'emploi

Thèse - PhD

Type de contrat

CDD doctorat

Rémunération brut mensuelles

2500

Date limite de candidature

31/03/2021

Date début de fonction

01/09/2021

Information contact

Jérémie Barral, Ph.D.
e-mail: mailto:jeremie.barral@pasteur.fr
web: www.barrallab.org
www.institut-audition.fr
tel: +33 1 76 53 50 20

Barral Lab
Institut de l'Audition
63 rue de Charenton
75012 Paris
France