Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Structure and responses of a hair cell’s ribbon synapse.

Daniel Andor-Ardó (155675)
Erica C. Keen (155686)
A. J. Hudspeth (155695)
Marcelo O. Magnasco (155702)

June 2012

A, Fast exocytosis owing to the fusion of a synaptic vesicle with the presynaptic cell’s p...

Exocytosis in mouse vestibular Type II hair cells shows a high-order Ca2+ dependence that is independent of synaptotagmin-4

Spaiardi P.
Marcotti W.
Masetto S.
Johnson S. L.

January 2020

Mature hair cells transduce information over a wide range of stimulus intensities and frequencies fo...

Image_1_Disruption of Otoferlin Alters the Mode of Exocytosis at the Mouse Inner Hair Cell Ribbon Synapse.TIF

Hideki Takago (4251040)
Tomoko Oshima-Takago (4251046)
Tobias Moser (244388)

January 2019

Sound encoding relies on Ca2+-mediated exocytosis at the ribbon synapse between cochlear inner hair ...

Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Chapochnikov, N.
Takago, H.
Huang, C.
Pangrsic, T.
Khimich, D.
Neef, J.
Auge, E.
Göttfert, F.
Hell, S.
Wichmann, C.
Wolf, F.
Moser, T.

September 2014

The mechanisms underlying the large amplitudes and heterogeneity of excitatory postsynaptic currents...

Uniquantal release through a dynamic fusion pore is a candidate mechanism of hair cell exocytosis.

Chapochnikov, N.
Takago, H.
Huang, C.
Pangrsic, T.
Khimich, D.
Neef, J.
Auge, E.
Göttfert, F.
Hell, S.
Wichmann, C.
Wolf, F.
Moser, T.

September 2014

The mechanisms underlying the large amplitudes and heterogeneity of excitatory postsynaptic currents...

Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Chapochnikov, Nikolai M.
Takago, Hideki
Huang, Chao-Hua
Pangršič, Tina
Khimich, Darina
Neef, Jakob
Auge, Elisabeth
Göttfert, Fabian
Hell, Stefan W.
Wichmann, Carolin
Wolf, Fred
Moser, Tobias

September 2014

SummaryThe mechanisms underlying the large amplitudes and heterogeneity of excitatory postsynaptic c...

Probing the mechanism of exocytosis at the hair cell ribbon synapse

Neef, Andreas
Khimich, Darina
Pirih, Primoz
Riedel, Dietmar
Wolf, Fred
Moser, Tobias

November 2007

Hearing relies on faithful synaptic transmission at the ribbon synapse of cochlear inner hair cells ...

Individual synaptic vesicles mediate stimulated exocytosis from cochlear inner hair cells.

Grabner, C.
Moser, T.

November 2018

Spontaneous excitatory postsynaptic currents (sEPSCs) measured from the first synapse in the mammali...

Image_1_Ca2+ Regulates the Kinetics of Synaptic Vesicle Fusion at the Afferent Inner Hair Cell Synapse.jpg

Chao-Hua Huang (5865272)
Tobias Moser (244388)

October 2018

The early auditory pathway processes information at high rates and with utmost temporal fidelity. Co...

Multivesicular Release in Hair Cell Ribbon Synapses in the Bullfrog Amphibian Papilla

Hwang, Fuu-Jiun

September 2020

Hair cell ribbon synapses in vertebrate hearing organs are capable to encode neural signals with ext...

Calcium-Dependent Synaptic Vesicle Trafficking Underlies Indefatigable Release at the Hair Cell Afferent Fiber Synapse

Schnee, Michael E.
Santos-Sacchi, Joseph
Castellano-Muñoz, Manuel
Kong, Jee-Hyun
Ricci, Anthony J.

April 2011

SummarySensory hair cell ribbon synapses respond to graded stimulation in a linear, indefatigable ma...

Disruption of Otoferlin Alters the Mode of Exocytosis at the Mouse Inner Hair Cell Ribbon Synapse

Hideki Takago
Hideki Takago
Hideki Takago
Tomoko Oshima-Takago
Tomoko Oshima-Takago
Tomoko Oshima-Takago
Tomoko Oshima-Takago
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser

January 2019

Sound encoding relies on Ca2+-mediated exocytosis at the ribbon synapse between cochlear inner hair ...

Modes and regulation of endocytic membrane retrieval in mouse auditory hair cells.

Neef, Jakob
Jung, Sangyong
Wong, Aaron B
Reuter, Kirsten
Pangrsic, Tina
Chakrabarti, Rituparna
Kügler, Sebastian
Lenz, Christine
Nouvian, Régis
Boumil, Rebecca M
Frankel, Wayne N
Wichmann, Carolin
Moser, Tobias

January 2014

Synaptic vesicle recycling sustains high rates of neurotransmission at the ribbon-type active zones ...

Exocytosis at mammalian vestibular ribbon synapses shows a high-order Ca2+ dependence and does not require synaptotagmin-4

Paolo Spaiardi
Walter Marcotti
Sergio Masetto
Stuart L. Johnson

January 2018

Inner ear sensory synapses faithfully transduce information over a wide range of stimulus intensitie...

n r

October 2016

ut ca w icINTRODUCTION investigated. Moreover, it is not known to which degree and by which mechanis...

Structure and responses of a hair cell’s ribbon synapse.

Daniel Andor-Ardó (155675)
Erica C. Keen (155686)
A. J. Hudspeth (155695)
Marcelo O. Magnasco (155702)

June 2012

A, Fast exocytosis owing to the fusion of a synaptic vesicle with the presynaptic cell’s p...

Exocytosis in mouse vestibular Type II hair cells shows a high-order Ca2+ dependence that is independent of synaptotagmin-4

Spaiardi P.
Marcotti W.
Masetto S.
Johnson S. L.

January 2020

Mature hair cells transduce information over a wide range of stimulus intensities and frequencies fo...

Image_1_Disruption of Otoferlin Alters the Mode of Exocytosis at the Mouse Inner Hair Cell Ribbon Synapse.TIF

Hideki Takago (4251040)
Tomoko Oshima-Takago (4251046)
Tobias Moser (244388)

January 2019

Sound encoding relies on Ca2+-mediated exocytosis at the ribbon synapse between cochlear inner hair ...

Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Chapochnikov, N.
Takago, H.
Huang, C.
Pangrsic, T.
Khimich, D.
Neef, J.
Auge, E.
Göttfert, F.
Hell, S.
Wichmann, C.
Wolf, F.
Moser, T.

September 2014

The mechanisms underlying the large amplitudes and heterogeneity of excitatory postsynaptic currents...

Uniquantal release through a dynamic fusion pore is a candidate mechanism of hair cell exocytosis.

Chapochnikov, N.
Takago, H.
Huang, C.
Pangrsic, T.
Khimich, D.
Neef, J.
Auge, E.
Göttfert, F.
Hell, S.
Wichmann, C.
Wolf, F.
Moser, T.

September 2014

The mechanisms underlying the large amplitudes and heterogeneity of excitatory postsynaptic currents...

Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Chapochnikov, Nikolai M.
Takago, Hideki
Huang, Chao-Hua
Pangršič, Tina
Khimich, Darina
Neef, Jakob
Auge, Elisabeth
Göttfert, Fabian
Hell, Stefan W.
Wichmann, Carolin
Wolf, Fred
Moser, Tobias

September 2014

SummaryThe mechanisms underlying the large amplitudes and heterogeneity of excitatory postsynaptic c...

Probing the mechanism of exocytosis at the hair cell ribbon synapse

Neef, Andreas
Khimich, Darina
Pirih, Primoz
Riedel, Dietmar
Wolf, Fred
Moser, Tobias

November 2007

Hearing relies on faithful synaptic transmission at the ribbon synapse of cochlear inner hair cells ...

Individual synaptic vesicles mediate stimulated exocytosis from cochlear inner hair cells.

Grabner, C.
Moser, T.

November 2018

Spontaneous excitatory postsynaptic currents (sEPSCs) measured from the first synapse in the mammali...

Image_1_Ca2+ Regulates the Kinetics of Synaptic Vesicle Fusion at the Afferent Inner Hair Cell Synapse.jpg

Chao-Hua Huang (5865272)
Tobias Moser (244388)

October 2018

The early auditory pathway processes information at high rates and with utmost temporal fidelity. Co...

Multivesicular Release in Hair Cell Ribbon Synapses in the Bullfrog Amphibian Papilla

Hwang, Fuu-Jiun

September 2020

Hair cell ribbon synapses in vertebrate hearing organs are capable to encode neural signals with ext...

Calcium-Dependent Synaptic Vesicle Trafficking Underlies Indefatigable Release at the Hair Cell Afferent Fiber Synapse

Schnee, Michael E.
Santos-Sacchi, Joseph
Castellano-Muñoz, Manuel
Kong, Jee-Hyun
Ricci, Anthony J.

April 2011

SummarySensory hair cell ribbon synapses respond to graded stimulation in a linear, indefatigable ma...

Disruption of Otoferlin Alters the Mode of Exocytosis at the Mouse Inner Hair Cell Ribbon Synapse

Hideki Takago
Hideki Takago
Hideki Takago
Tomoko Oshima-Takago
Tomoko Oshima-Takago
Tomoko Oshima-Takago
Tomoko Oshima-Takago
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser

January 2019

Sound encoding relies on Ca2+-mediated exocytosis at the ribbon synapse between cochlear inner hair ...

Modes and regulation of endocytic membrane retrieval in mouse auditory hair cells.

Neef, Jakob
Jung, Sangyong
Wong, Aaron B
Reuter, Kirsten
Pangrsic, Tina
Chakrabarti, Rituparna
Kügler, Sebastian
Lenz, Christine
Nouvian, Régis
Boumil, Rebecca M
Frankel, Wayne N
Wichmann, Carolin
Moser, Tobias

January 2014

Synaptic vesicle recycling sustains high rates of neurotransmission at the ribbon-type active zones ...

Exocytosis at mammalian vestibular ribbon synapses shows a high-order Ca2+ dependence and does not require synaptotagmin-4

Paolo Spaiardi
Walter Marcotti
Sergio Masetto
Stuart L. Johnson

January 2018

Inner ear sensory synapses faithfully transduce information over a wide range of stimulus intensitie...

n r

October 2016

ut ca w icINTRODUCTION investigated. Moreover, it is not known to which degree and by which mechanis...

Structure and responses of a hair cell’s ribbon synapse.

Daniel Andor-Ardó (155675)
Erica C. Keen (155686)
A. J. Hudspeth (155695)
Marcelo O. Magnasco (155702)

June 2012

A, Fast exocytosis owing to the fusion of a synaptic vesicle with the presynaptic cell’s p...

Exocytosis in mouse vestibular Type II hair cells shows a high-order Ca2+ dependence that is independent of synaptotagmin-4

Spaiardi P.
Marcotti W.
Masetto S.
Johnson S. L.

January 2020

Mature hair cells transduce information over a wide range of stimulus intensities and frequencies fo...

Image_1_Disruption of Otoferlin Alters the Mode of Exocytosis at the Mouse Inner Hair Cell Ribbon Synapse.TIF

Hideki Takago (4251040)
Tomoko Oshima-Takago (4251046)
Tobias Moser (244388)

January 2019

Sound encoding relies on Ca2+-mediated exocytosis at the ribbon synapse between cochlear inner hair ...

Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Abstract

Extracted data

Uniquantal Release through a Dynamic Fusion Pore Is a Candidate Mechanism of Hair Cell Exocytosis

Abstract

Extracted data

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