An eLIF model with a large ΔT value accurately captures membrane voltage properties observed in stellate cells.

Biophysical models.

Amitabha Bose (144594)
Áine Byrne (6685157)
John Rinzel (246598)

May 2019

A. Frequency vs. Ibias curves for LIF (blue) and INaP (red) models. Observe the different scales for...

Model membrane potential oscillation traces.

Stephen Grossberg (304121)
Praveen K. Pilly (304122)

February 2013

Simulations of membrane potential (blue curves) and habituative transmitter (red curves) traces i...

Schematic representation of the procedure used for GIF model parameter extraction.

Christian Pozzorini (756064)
Skander Mensi (756065)
Olivier Hagens (756066)
Richard Naud (129559)
Christof Koch (143916)
Wulfram Gerstner (129561)

June 2015

In Step 1 (first row), the experimental spike train Sdata(t) is e...

An eLIF model using a ΔT value of 15 mV generates limited modulation of input-output responses by membrane voltage fluctuations.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Example traces of eLIF models implemented with ΔT = 15 mV (i) and 2 mV (ii)...

Stellate cells express non-linear membrane properties that shape the voltage trajectory leading up to spike threshold.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Average steady-state input resistance as a function of membrane voltage. Measures were taken ...

Reducing ΔT in the eLIF model gradually increases modulation of input-output responses by membrane voltage fluctuations.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) eLIF model f-I curve gain is reduced with more a negative Vr value. ...

Block of voltage-dependent Na+ conductance increases sensitivity to membrane voltage fluctuations in stellate cells.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Steady-state membrane input resistance measures for different holding voltages under control ...

Modulation of stellate cell input-output responses with artificial changes in membrane conductance implemented using dynamic clamp.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Plot of average stellate cell f-I curves using -5 ns (red), control (black) and 15 nS ...

Basic Features of a Cell Electroporation Model: Illustrative Behavior for Two Very Different Pulses

Son, Reuben S.
Smith, Kyle C.
Gowrishankar, Thiruvallur R.
Vernier, P. Thomas
Weaver, James C.

April 2014

This is an author-corrected version of the final published paper.Science increasingly involves compl...

Fitting results.

Bertrand Fontaine (213972)
José Luis Peña (256846)
Romain Brette (157886)

April 2014

The optimization results for all cells are shown for three parameters: high voltage slope (a<...

Membrane channel densities allow an improved performance and cell size allows for energy reduction.

Michiel W. H. Remme (259995)
John Rinzel (246598)
Susanne Schreiber (480351)

December 2018

(A) Energy cost is plotted against reciprocal performance for the default model for parameter combin...

Changes in initial spike and interspike interval voltage trajectory using dynamic clamp.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Average membrane voltage trajectories for initial spike approach in stellate cells under -5 n...

AP and Rm for two sets of parameters.

Jaspreet Kaur (130950)
Anders Nygren (520985)
Edward J. Vigmond (462050)

September 2014

(A): APs produced by two sets of parameters (shown in <a href="http://www.plosone.org/article/inf...

The passive and firing properties of an AOB mitral cell are reproduced by a conductance-based model of a reconstructed cell.

Asaph Zylbertal (838009)
Anat Kahan (838010)
Yoram Ben-Shaul (262282)
Yosef Yarom (153340)
Shlomo Wagner (283046)

December 2015

(A)–(G) Comparison between the experimental observation (blue) and the model prediction (orange) ...

Cell membrane model validation.

Steven Niederer (400117)

April 2013

Arrow direction shows model prediction for the change in intracellular concentrations and membran...

Biophysical models.

Amitabha Bose (144594)
Áine Byrne (6685157)
John Rinzel (246598)

May 2019

A. Frequency vs. Ibias curves for LIF (blue) and INaP (red) models. Observe the different scales for...

Model membrane potential oscillation traces.

Stephen Grossberg (304121)
Praveen K. Pilly (304122)

February 2013

Simulations of membrane potential (blue curves) and habituative transmitter (red curves) traces i...

Schematic representation of the procedure used for GIF model parameter extraction.

Christian Pozzorini (756064)
Skander Mensi (756065)
Olivier Hagens (756066)
Richard Naud (129559)
Christof Koch (143916)
Wulfram Gerstner (129561)

June 2015

In Step 1 (first row), the experimental spike train Sdata(t) is e...

An eLIF model using a ΔT value of 15 mV generates limited modulation of input-output responses by membrane voltage fluctuations.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Example traces of eLIF models implemented with ΔT = 15 mV (i) and 2 mV (ii)...

Stellate cells express non-linear membrane properties that shape the voltage trajectory leading up to spike threshold.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Average steady-state input resistance as a function of membrane voltage. Measures were taken ...

Reducing ΔT in the eLIF model gradually increases modulation of input-output responses by membrane voltage fluctuations.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) eLIF model f-I curve gain is reduced with more a negative Vr value. ...

Block of voltage-dependent Na+ conductance increases sensitivity to membrane voltage fluctuations in stellate cells.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Steady-state membrane input resistance measures for different holding voltages under control ...

Modulation of stellate cell input-output responses with artificial changes in membrane conductance implemented using dynamic clamp.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Plot of average stellate cell f-I curves using -5 ns (red), control (black) and 15 nS ...

Basic Features of a Cell Electroporation Model: Illustrative Behavior for Two Very Different Pulses

Son, Reuben S.
Smith, Kyle C.
Gowrishankar, Thiruvallur R.
Vernier, P. Thomas
Weaver, James C.

April 2014

This is an author-corrected version of the final published paper.Science increasingly involves compl...

Fitting results.

Bertrand Fontaine (213972)
José Luis Peña (256846)
Romain Brette (157886)

April 2014

The optimization results for all cells are shown for three parameters: high voltage slope (a<...

Membrane channel densities allow an improved performance and cell size allows for energy reduction.

Michiel W. H. Remme (259995)
John Rinzel (246598)
Susanne Schreiber (480351)

December 2018

(A) Energy cost is plotted against reciprocal performance for the default model for parameter combin...

Changes in initial spike and interspike interval voltage trajectory using dynamic clamp.

Fernando R. Fernandez (189098)
Paola Malerba (729723)
John A. White (187113)

April 2015

(A) Average membrane voltage trajectories for initial spike approach in stellate cells under -5 n...

AP and Rm for two sets of parameters.

Jaspreet Kaur (130950)
Anders Nygren (520985)
Edward J. Vigmond (462050)

September 2014

(A): APs produced by two sets of parameters (shown in <a href="http://www.plosone.org/article/inf...

The passive and firing properties of an AOB mitral cell are reproduced by a conductance-based model of a reconstructed cell.

Asaph Zylbertal (838009)
Anat Kahan (838010)
Yoram Ben-Shaul (262282)
Yosef Yarom (153340)
Shlomo Wagner (283046)

December 2015

(A)–(G) Comparison between the experimental observation (blue) and the model prediction (orange) ...

Cell membrane model validation.

Steven Niederer (400117)

April 2013

Arrow direction shows model prediction for the change in intracellular concentrations and membran...

Biophysical models.

Amitabha Bose (144594)
Áine Byrne (6685157)
John Rinzel (246598)

May 2019

A. Frequency vs. Ibias curves for LIF (blue) and INaP (red) models. Observe the different scales for...

Model membrane potential oscillation traces.

Stephen Grossberg (304121)
Praveen K. Pilly (304122)

February 2013

Simulations of membrane potential (blue curves) and habituative transmitter (red curves) traces i...

Schematic representation of the procedure used for GIF model parameter extraction.

Christian Pozzorini (756064)
Skander Mensi (756065)
Olivier Hagens (756066)
Richard Naud (129559)
Christof Koch (143916)
Wulfram Gerstner (129561)

June 2015

In Step 1 (first row), the experimental spike train Sdata(t) is e...

An eLIF model with a large Δ<sub><i>T</i></sub> value accurately captures membrane voltage properties observed in stellate cells.

Abstract

Extracted data

An eLIF model with a large Δ<sub><i>T</i></sub> value accurately captures membrane voltage properties observed in stellate cells.

Abstract

Extracted data

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