Jérémie
      Barral		 Home Research Publications Vitæ Links

Peer-reviewed articles



Barral J, Wang XJ and Reyes AD (2019). Propagation of temporal and rate signals in cultured multilayer networks. Nature Communictaions 10 : e3969 (pdf)


Barral J, Jülicher F, and Martin P (2018). Friction from transduction channels’ gating affects spontaneous hair-bundle oscillations. Biophysical Journal 114 : 425-436 (pdf)


Barral J and Reyes AD (2017). Optogenetic stimulation and recording of primary cultured neurons with spatiotemporal control. Bio-Protocol 7 : e2335 (pdf)

Barral J and Reyes AD (2016). Synaptic scaling rules preserves excitatory/inhibitory balance and salient neuronal dynamics. Nature Neuroscience 19 : 1690-1690 (pdf)


Bormuth V, Barral J, Joanny JF, Jülicher F, and Martin P (2015). Hair-bundle friction from transduction channels’ gating forces. AIP Conf. Proc. 1703, 030003 (pdf)


Palacci J, Sacanna S, Abramian A, Barral J, Hanson K, Grosberg, Pine DJ, and Chaikin PM (2015). Artificial rheotaxis. Science Advances 1: e1400214 (pdf)



Bormuth V, Barral J, Joanny JF, Jülicher F, and Martin P (2014). Transduction channels' gating can control friction on vibrating hair-cell bundles in the ear. P.N.A.S. 111 : 7185-90 (pdf)

Dinis L, Martin P, Barral J, Prost J, and Joanny JF (2012). Fluctuation-response theorem for the active noisy oscillator of the hair-cell bundle. Phys Rev Lett. 109: 160602-5 (pdf)


Barral J and Martin P (2012). Phantom tones and suppressive masking by active nonlinear oscillation of the hair-cell bundle. P.N.A.S. 109 : E1344-51 (pdf)

Barral J and Martin P (2011). The physical basis of active mechanosensitivity by the hair-cell bundle. Cur. Op. in Otolaryngology and Head and Neck Surgery. 19 : 369-375 (pdf)


Barral J, Dierkes K, Lindner B, Jülicher J, and Martin P (2010). Coupling a sensory hair-cell bundle to cyber clones enhances nonlinear amplification. P.N.A.S. 107 : 8079-8084 (pdf)
  
Michalski N, Michel V, Bahloul A, Lefèvre G, Barral J, Yagi H, Chardenoux S, Weil D, Martin P, Hardelin J-P, Sato M, and Petit C (2007). Molecular characterization of the ankle-link complex in cochlear hair cells and its role in the hair bundle functioning. J. Neurosci.. 27 : 6478-6488 (pdf)

Selected abstracts and conference Presentations
  1. Barral J. Synaptic scaling to maintain neuronal dynamics and propagate information. NeuroFrance, Marseille, France
  2. Barral J. Synaptic scaling maintains neuronal dynamics and controls the neural code. Cosyne Workshop, Breckenridge, USA (2018) - Talk
  3. Barral J, Wang XJ, and Reyes A. Propagation of spike timing and firing rate in feedforward networks reconstituted in vitro. Cosyne, Denver, USA (2018) - Talk
  4. Barral J. Synaptic scaling to maintain neuronal dynamics and propagate information. Bernstein Conference for Computational Neuroscience, Göttingen, Germany (2017) - Talk
  5. Barral J, Wang XJ, and Reyes AD. Propagation of spike timing and firing rate in across multiple layers in networks of cultured neurons. Society for Neuroscience, San Diego, USA (2016)
  6. Barral J and Reyes A. Homeostatic control of neuronal dynamics: scaling of synaptic strength with network size. Cosyne, Salt Lake City, USA (2016)
  7. Barral J. Propagation of synchronous input in reconstituted feedforward networks. Postdoc Interdisciplinary Symposium, New York University, New York, NY, USA (2015) - Talk
  8. Barral J and Reyes A. Propagation of spike timing and firing rate in feedforward networks reconstituted in vitroSense to Synapse: Biophysical Mechanisms of Perception, New York University, New York, NY, USA (2015)
  9. Barral J, Tchumatchenko T, and Reyes A. Signal and noise correlations in a recurrent network of neurons in culture. Society for Neuroscience, Washington DC, USA (2014)
  10. Barral J, Tchumatchenko T, and Reyes A. Examining signal and noise correlation in a recurrent network of neurons
    in culture. Cosyne, Salt Lake City, USA (2014)
  11. Barral J and Martin P. Phantom tones and suppressive masking from active nonlinear oscillations by the hair-cell bundle. Gordon Research Conference: Auditory System, Bates College, Lewiston, ME , USA (2012)
  12. Barral J and Martin P. Phantom tones and suppressive masking from active nonlinear oscillations by the hair-cell bundle. Sense to Synapse: Biophysical Mechanisms of Perception, Columbia University, New York, NY, USA (2012) - Talk
  13. Barral J and Martin P. Phantom tones and suppressive masking from active nonlinear oscillations by the hair-cell bundle. ARO Abstracts, Baltimore, MD, USA (2011)
  14. Barral J and Martin P. Critical distortions produced by an inner ear hair bundle. 13th Young researchers & Life science Congress, Institut Pasteur, Paris, France (2010) - Talk
  15. Barral J and Martin P. Critical distortions produced by an inner ear hair bundle. Circle meeting, AMOLF, Amsterdam, Holland (2010) - Talk
  16. Barral J, Dierkes K, Lindner B, Jülicher F, and Martin P. Coupling a sensory hair-cell bundle to cyber clones enhances nonlinear amplification. ARO Abstracts, Anaheim, CA, USA (2010) - Talk
  17. Barral J, Dierkes K, Lindner B, Jülicher F, and Martin P. Coupling a hair-cell bundle to cyber clones reveals the benefits of synergy for auditory amplification. Society for Neuroscience Abstracts, Chicago, IL,USA (2009)
  18. Barral J and Martin P. The effects of endolymph viscosity on spontaneous hair-bundle oscillations by hair cells from the bullfrog’s sacculus. Force-Gated Ion Channels : From Structure to Sensation, Janelia Farm Conference, HHMI, Washington, USA (2008)

Invited Seminars
  1. Bernstein Center Freiburg, Germany, by U. Egert (December 2019)
  2. Mount Sinai Neuroscience Seminars, New York City, NY, USA (February 2018)
  3. MPI for Brain Research, Frankfurt, Germany by T. Tchumatchenko (October 2013)
  4. Rockeffeler University New York City, NY, USA by A.J. Hudspeth (February 2010)
  5. Rutgers University Newark, NJ, USA by G. Buzsaki (February 2010)