Peer-reviewed
articles
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Barral J, Wang XJ
and Reyes AD (2019). Propagation of temporal and rate
signals in cultured multilayer networks. Nature
Communictaions 10 : e3969 (pdf) |
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Barral J,
Jülicher F, and Martin P (2018). Friction from
transduction channels’ gating affects spontaneous
hair-bundle oscillations. Biophysical Journal 114
: 425-436 (pdf) |
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Barral J and
Reyes AD (2017). Optogenetic stimulation and recording of
primary cultured neurons with spatiotemporal control. Bio-Protocol 7 :
e2335 (pdf)
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Barral J and
Reyes AD (2016). Synaptic scaling rules preserves
excitatory/inhibitory balance and salient neuronal
dynamics. Nature
Neuroscience 19 : 1690-1690 (pdf)
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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)
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Palacci
J, Sacanna S, Abramian A, Barral
J, Hanson K, Grosberg, Pine DJ, and Chaikin PM
(2015). Artificial rheotaxis. Science
Advances 1: e1400214 (pdf)
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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)
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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)
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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)
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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)
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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)
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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)
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Selected abstracts and conference
Presentations
- Barral J. Synaptic scaling to maintain neuronal
dynamics and propagate information. NeuroFrance,
Marseille, France
- Barral J. Synaptic scaling maintains neuronal dynamics
and controls the neural code. Cosyne Workshop,
Breckenridge, USA (2018) - Talk
- 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
- Barral J. Synaptic scaling to maintain neuronal
dynamics and propagate information. Bernstein Conference for
Computational Neuroscience, Göttingen, Germany (2017) - Talk
- 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)
- Barral J and
Reyes A. Homeostatic control of neuronal dynamics: scaling of
synaptic strength with network size. Cosyne,
Salt Lake City, USA (2016)
- Barral J.
Propagation of synchronous input in reconstituted feedforward
networks. Postdoc
Interdisciplinary Symposium, New York University, New
York, NY, USA (2015) - Talk
- Barral J and
Reyes A. Propagation of spike timing and firing rate in
feedforward networks reconstituted in
vitro. Sense to
Synapse: Biophysical Mechanisms of Perception, New York
University, New York, NY, USA (2015)
- 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)
- 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)
- 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)
- 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
- 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)
- 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
- Barral J and
Martin P. Critical distortions produced by an inner ear hair
bundle. Circle meeting,
AMOLF, Amsterdam, Holland (2010) - Talk
- 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
- 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)
- 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
- Bernstein Center Freiburg,
Germany, by U. Egert (December 2019)
- Mount Sinai Neuroscience
Seminars, New York City, NY, USA (February 2018)
- MPI for Brain Research,
Frankfurt, Germany by T. Tchumatchenko (October 2013)
- Rockeffeler University New York
City, NY, USA by A.J. Hudspeth (February 2010)
- Rutgers University Newark, NJ,
USA by G. Buzsaki (February 2010)
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