Parameters.

Strong adhesive attachments between cell and substrate are required to match experimental observations.

Rajesh Balagam (135557)
Douglas B. Litwin (132533)
Fabian Czerwinski (495214)
Mingzhai Sun (421973)
Heidi B. Kaplan (132535)
Joshua W. Shaevitz (171407)
Oleg A. Igoshin (132536)

May 2014

(A) Maximum change in primary cell orientation () as a function of the strength of substrate atta...

Typical model and response on 20μm×20μm domain (100 samples, actin filament relative density: 0.15%, actin filament length: 5μm±2μm, segment length 0.3μm±0.06μm, and maximum cross-linker length: 0.3 μm) (a) layout of a selected sample (20μm×20μm) (b) histogram of elastic moduli, E¯=3.09kPa, std(E)=0.24kPa.

Jinghai Gong (473477)
Daxu Zhang (473478)
Yiider Tseng (374654)
Baolong Li (473479)
Denis Wirtz (166534)
Benjamin William Schafer (473480)

October 2013

Typical model and response on 20μm×20μm domain (100 samples, actin filament relative density: 0.1...

Table_1_Advanced and Rationalized Atomic Force Microscopy Analysis Unveils Specific Properties of Controlled Cell Mechanics.docx

Guido Caluori (5640164)
Jan Pribyl (5469479)
Martin Pesl (5640167)
Jorge Oliver-De La Cruz (573045)
Giorgia Nardone (5640170)
Petr Skladal (5640173)
Giancarlo Forte (431981)

August 2018

The cell biomechanical properties play a key role in the determination of the changes during the ess...

Model calibration overview.

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

Simulations were performed with a center-based model (CBM). In step 1, the contact forces in CBM wer...

Impact of cell mechanics and cell-cell junctions properties on lifetime and size of gaps.

Jorge Escribano (6658496)
Michelle B. Chen (6658499)
Emad Moeendarbary (581195)
Xuan Cao (549030)
Vivek Shenoy (2064274)
Jose Manuel Garcia-Aznar (6658502)
Roger D. Kamm (116026)
Fabian Spill (6658505)

May 2019

Average lifetime of gaps ratio (divided by control case) in first column and average size in second ...

Model predictions of mean actin retrograde velocity and maturation fraction for the baseline model.

Kailas Shankar Honasoge (17108745)
Zeynep Karagöz (10718850)
Benjamin T. Goult (173495)
Haguy Wolfenson (268096)
Vanessa L. S. LaPointe (10718853)
Aurélie Carlier (127733)

October 2023

(A) shows the predicted velocity vs substrate stiffness compared to previous studies, (B) shows the ...

Influence of cell contractility on de-adhesion dynamics.

Soumya S S (627189)
Lakshmi Kavitha Sthanam (627190)
Ranjith Padinhateeri (180141)
Mandar M. Inamdar (627191)
Shamik Sen (256502)

September 2014

The effect of cell contractility on de-adhesion dynamics was studied for three contractility valu...

Cell protrusions as a viscoelastic structure.

Nima Khatibzadeh (381512)
Alexander A. Spector (320646)
William E. Brownell (320645)
Bahman Anvari (381513)

February 2013

(A) Standard linear solid (SLS) model of the protrusion. The model includes a Maxwell arm ...

Influence of substrate properties, bond-breakage rate, and adhesion distribution on de-adhesion dynamics.

Soumya S S (627189)
Lakshmi Kavitha Sthanam (627190)
Ranjith Padinhateeri (180141)
Mandar M. Inamdar (627191)
Shamik Sen (256502)

September 2014

(a) De-adhesion curves computed by varying stiffness ratio () from to keeping , and fixed (se...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 9

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Simulation snapshots of DCM cells within a scaled capsule model, for the cases of cells with a r...

Variation of most influential model parameters.

Tim Odenthal (473295)
Bart Smeets (170582)
Paul Van Liedekerke (473296)
Engelbert Tijskens (473297)
Hans Van Oosterwyck (127750)
Herman Ramon (473298)

October 2013

Double-logarithmic plots of cell contact radius versus time. (a) varying cell-substrate a...

The distribution and quantification of the average intensity of critical actin SF properties reveal different protein distributions.

Alberto Elosegui-Artola (636341)
Alvaro Jorge-Peñas (636342)
Oihana Moreno-Arotzena (636343)
Amaia Oregi (636344)
Marta Lasa (636345)
José Manuel García-Aznar (122498)
Elena M. De Juan-Pardo (636346)
Rafael Aldabe (462472)

September 2014

(A) (a) Examples of measurements of the F-actin intensity of a DMSO control cell and a cell treat...

Typical non-dimensional values for model parameters.

Federico Frascoli (391767)
Barry D. Hughes (361285)
Muhammad H. Zaman (203839)
Kerry A. Landman (361286)

March 2013

In real units, we have , min, P, , × J, × J, pN. Note that the choice of for a total number o...

Schematic representation of the model.

Soumya S S (627189)
Lakshmi Kavitha Sthanam (627190)
Ranjith Padinhateeri (180141)
Mandar M. Inamdar (627191)
Shamik Sen (256502)

September 2014

Cell is modeled as a viscoelastic solid (represented by springs and dashpots), and is physically ...

Results of the clutch model.

Chiara Venturini (1831480)
Pablo Sáez (16548896)

July 2023

Number of myosin motors and stall force. Extended data availability. Fig A1. Effect of slip and catc...

Strong adhesive attachments between cell and substrate are required to match experimental observations.

Rajesh Balagam (135557)
Douglas B. Litwin (132533)
Fabian Czerwinski (495214)
Mingzhai Sun (421973)
Heidi B. Kaplan (132535)
Joshua W. Shaevitz (171407)
Oleg A. Igoshin (132536)

May 2014

(A) Maximum change in primary cell orientation () as a function of the strength of substrate atta...

Typical model and response on 20μm×20μm domain (100 samples, actin filament relative density: 0.15%, actin filament length: 5μm±2μm, segment length 0.3μm±0.06μm, and maximum cross-linker length: 0.3 μm) (a) layout of a selected sample (20μm×20μm) (b) histogram of elastic moduli, E¯=3.09kPa, std(E)=0.24kPa.

Jinghai Gong (473477)
Daxu Zhang (473478)
Yiider Tseng (374654)
Baolong Li (473479)
Denis Wirtz (166534)
Benjamin William Schafer (473480)

October 2013

Typical model and response on 20μm×20μm domain (100 samples, actin filament relative density: 0.1...

Table_1_Advanced and Rationalized Atomic Force Microscopy Analysis Unveils Specific Properties of Controlled Cell Mechanics.docx

Guido Caluori (5640164)
Jan Pribyl (5469479)
Martin Pesl (5640167)
Jorge Oliver-De La Cruz (573045)
Giorgia Nardone (5640170)
Petr Skladal (5640173)
Giancarlo Forte (431981)

August 2018

The cell biomechanical properties play a key role in the determination of the changes during the ess...

Model calibration overview.

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

Simulations were performed with a center-based model (CBM). In step 1, the contact forces in CBM wer...

Impact of cell mechanics and cell-cell junctions properties on lifetime and size of gaps.

Jorge Escribano (6658496)
Michelle B. Chen (6658499)
Emad Moeendarbary (581195)
Xuan Cao (549030)
Vivek Shenoy (2064274)
Jose Manuel Garcia-Aznar (6658502)
Roger D. Kamm (116026)
Fabian Spill (6658505)

May 2019

Average lifetime of gaps ratio (divided by control case) in first column and average size in second ...

Model predictions of mean actin retrograde velocity and maturation fraction for the baseline model.

Kailas Shankar Honasoge (17108745)
Zeynep Karagöz (10718850)
Benjamin T. Goult (173495)
Haguy Wolfenson (268096)
Vanessa L. S. LaPointe (10718853)
Aurélie Carlier (127733)

October 2023

(A) shows the predicted velocity vs substrate stiffness compared to previous studies, (B) shows the ...

Influence of cell contractility on de-adhesion dynamics.

Soumya S S (627189)
Lakshmi Kavitha Sthanam (627190)
Ranjith Padinhateeri (180141)
Mandar M. Inamdar (627191)
Shamik Sen (256502)

September 2014

The effect of cell contractility on de-adhesion dynamics was studied for three contractility valu...

Cell protrusions as a viscoelastic structure.

Nima Khatibzadeh (381512)
Alexander A. Spector (320646)
William E. Brownell (320645)
Bahman Anvari (381513)

February 2013

(A) Standard linear solid (SLS) model of the protrusion. The model includes a Maxwell arm ...

Influence of substrate properties, bond-breakage rate, and adhesion distribution on de-adhesion dynamics.

Soumya S S (627189)
Lakshmi Kavitha Sthanam (627190)
Ranjith Padinhateeri (180141)
Mandar M. Inamdar (627191)
Shamik Sen (256502)

September 2014

(a) De-adhesion curves computed by varying stiffness ratio () from to keeping , and fixed (se...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 9

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Simulation snapshots of DCM cells within a scaled capsule model, for the cases of cells with a r...

Variation of most influential model parameters.

Tim Odenthal (473295)
Bart Smeets (170582)
Paul Van Liedekerke (473296)
Engelbert Tijskens (473297)
Hans Van Oosterwyck (127750)
Herman Ramon (473298)

October 2013

Double-logarithmic plots of cell contact radius versus time. (a) varying cell-substrate a...

The distribution and quantification of the average intensity of critical actin SF properties reveal different protein distributions.

Alberto Elosegui-Artola (636341)
Alvaro Jorge-Peñas (636342)
Oihana Moreno-Arotzena (636343)
Amaia Oregi (636344)
Marta Lasa (636345)
José Manuel García-Aznar (122498)
Elena M. De Juan-Pardo (636346)
Rafael Aldabe (462472)

September 2014

(A) (a) Examples of measurements of the F-actin intensity of a DMSO control cell and a cell treat...

Typical non-dimensional values for model parameters.

Federico Frascoli (391767)
Barry D. Hughes (361285)
Muhammad H. Zaman (203839)
Kerry A. Landman (361286)

March 2013

In real units, we have , min, P, , × J, × J, pN. Note that the choice of for a total number o...

Schematic representation of the model.

Soumya S S (627189)
Lakshmi Kavitha Sthanam (627190)
Ranjith Padinhateeri (180141)
Mandar M. Inamdar (627191)
Shamik Sen (256502)

September 2014

Cell is modeled as a viscoelastic solid (represented by springs and dashpots), and is physically ...

Results of the clutch model.

Chiara Venturini (1831480)
Pablo Sáez (16548896)

July 2023

Number of myosin motors and stall force. Extended data availability. Fig A1. Effect of slip and catc...

Strong adhesive attachments between cell and substrate are required to match experimental observations.

Rajesh Balagam (135557)
Douglas B. Litwin (132533)
Fabian Czerwinski (495214)
Mingzhai Sun (421973)
Heidi B. Kaplan (132535)
Joshua W. Shaevitz (171407)
Oleg A. Igoshin (132536)

May 2014

(A) Maximum change in primary cell orientation () as a function of the strength of substrate atta...

Typical model and response on 20μm×20μm domain (100 samples, actin filament relative density: 0.15%, actin filament length: 5μm±2μm, segment length 0.3μm±0.06μm, and maximum cross-linker length: 0.3 μm) (a) layout of a selected sample (20μm×20μm) (b) histogram of elastic moduli, E¯=3.09kPa, std(E)=0.24kPa.

Jinghai Gong (473477)
Daxu Zhang (473478)
Yiider Tseng (374654)
Baolong Li (473479)
Denis Wirtz (166534)
Benjamin William Schafer (473480)

October 2013

Typical model and response on 20μm×20μm domain (100 samples, actin filament relative density: 0.1...

Table_1_Advanced and Rationalized Atomic Force Microscopy Analysis Unveils Specific Properties of Controlled Cell Mechanics.docx

Guido Caluori (5640164)
Jan Pribyl (5469479)
Martin Pesl (5640167)
Jorge Oliver-De La Cruz (573045)
Giorgia Nardone (5640170)
Petr Skladal (5640173)
Giancarlo Forte (431981)

August 2018

The cell biomechanical properties play a key role in the determination of the changes during the ess...

Abstract

Extracted data

Parameters.

Abstract

Extracted data

Related items

Related items