Simulations of Cell Motion Deep Inside the Swarming Colony

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (1/3)

Yu, J (via Mendeley Data)

July 2021

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Results of a typical simulations.

Daniel Stockholm (25425)
Rachid Benchaouir (25426)
Julien Picot (25427)
Philippe Rameau (25428)
Thi My Anh Neildez (25429)
Gabriel Landini (25430)
Corinne Laplace-Builhé (25431)
Andras Paldi (15969)

February 2013

A: Results of a typical run at the exponential growth phase and at equilibrium (type A cel...

Top plot: average number of neighbors during a single run. Bottom plot: agents phylogeny for the same run. The roots are on the left, and each bifurcation represents a newborn agent.

Olaf Witkowski (2633398)
Takashi Ikegami (53782)

April 2016

The two plots show the progression of the average swarming in the population, indicated by the av...

Time Evolution of the Global Order Parameter

Yilin Wu (40196)
Yi Jiang (40197)
Dale Kaiser (7149)
Mark Alber (40198)

February 2013

<div>(A) Plots of the order parameter Ω for the simulation of swarming near colony edge with init...

Simulation Images and Linear Growth of Colony

Yilin Wu (40196)
Yi Jiang (40197)
Dale Kaiser (7149)
Mark Alber (40198)

February 2013

<div>(A) and (B) are pictures of the edges of the A+S− and wild-type (A<sup...

A random graph model of density thresholds in swarming cells

Jena, Siddhartha G.

April 2016

Abstract Swarming behaviour is a type of bacterial motility that has been found to be dependent on r...

Colony expansion and cell death.

Jordi van Gestel (110582)
Martin A. Nowak (24845)

February 2016

(Left) Scheme showing the sequential stages of colony fission: (1) cell death, (2) cell different...

Dynamic aspects of the structured cell population in a swarming colony of proteus mirabilis

Tohey Matsuyama
Yuko Takagi
Yoji Nakagawa
Hiroto Itoh
Junichi Wakita
Mitsugu Matsushita

September 2016

Proteus mirabilis forms a concentric-ring colony by undergoing periodic swarming. A colony in the pr...

Schematic diagram of the model and the behavior of a model simulation.

Hisashi Murakami (565962)
Takenori Tomaru (565963)
Yuta Nishiyama (565964)
Toru Moriyama (565965)
Takayuki Niizato (162226)
Yukio-Pegio Gunji (162230)

May 2014

(A) Illustration of a transition of a swarm in lattice space. Each individual is represented by a...

Swarming is affected by degS S76D.

Carsten Jers (356447)
Ahasanul Kobir (356448)
Elsebeth Oline Søndergaard (356449)
Peter Ruhdal Jensen (168177)
Ivan Mijakovic (27922)

February 2013

Swarming of the wild type B. subtilis and mutant strains degS S76A and degS ...

A Computational Model of Swarming in Proteus mirabilis

Filpo Lopez, Katherine

January 2021

The bacterial species, Proteus mirabilis, is a unique bacteria that differentiates into different ce...

Computational determination of the phase space of collective motility behaviors.

Tristan Ursell (73348)
Rosanna Man Wah Chau (454604)
Susanne Wisen (454605)
Devaki Bhaya (268447)
Kerwyn Casey Huang (73349)

September 2013

A) Simulations grouped into classes as a function of dimensionless bias force and mean cellular c...

Schematics showing possible variations of SC features and illustration of the Cellular Potts Model for simulation.

Ernest C. Y. Ho (538895)
Juan Nicolas Malagón (5843078)
Abha Ahuja (5843081)
Rama Singh (717588)
Ellen Larsen (5843084)

October 2018

A Confocal images of ♂ wt (male wildtype) SC (labelled green) at 23 and 36 hours after pupariation. ...

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (2/3)

Yu, J (via Mendeley Data)

July 2021

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (3/3)

Yu, J

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (1/3)

Yu, J (via Mendeley Data)

July 2021

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Results of a typical simulations.

Daniel Stockholm (25425)
Rachid Benchaouir (25426)
Julien Picot (25427)
Philippe Rameau (25428)
Thi My Anh Neildez (25429)
Gabriel Landini (25430)
Corinne Laplace-Builhé (25431)
Andras Paldi (15969)

February 2013

A: Results of a typical run at the exponential growth phase and at equilibrium (type A cel...

Top plot: average number of neighbors during a single run. Bottom plot: agents phylogeny for the same run. The roots are on the left, and each bifurcation represents a newborn agent.

Olaf Witkowski (2633398)
Takashi Ikegami (53782)

April 2016

The two plots show the progression of the average swarming in the population, indicated by the av...

Time Evolution of the Global Order Parameter

Yilin Wu (40196)
Yi Jiang (40197)
Dale Kaiser (7149)
Mark Alber (40198)

February 2013

<div>(A) Plots of the order parameter Ω for the simulation of swarming near colony edge with init...

Simulation Images and Linear Growth of Colony

Yilin Wu (40196)
Yi Jiang (40197)
Dale Kaiser (7149)
Mark Alber (40198)

February 2013

<div>(A) and (B) are pictures of the edges of the A+S− and wild-type (A<sup...

A random graph model of density thresholds in swarming cells

Jena, Siddhartha G.

April 2016

Abstract Swarming behaviour is a type of bacterial motility that has been found to be dependent on r...

Colony expansion and cell death.

Jordi van Gestel (110582)
Martin A. Nowak (24845)

February 2016

(Left) Scheme showing the sequential stages of colony fission: (1) cell death, (2) cell different...

Dynamic aspects of the structured cell population in a swarming colony of proteus mirabilis

Tohey Matsuyama
Yuko Takagi
Yoji Nakagawa
Hiroto Itoh
Junichi Wakita
Mitsugu Matsushita

September 2016

Proteus mirabilis forms a concentric-ring colony by undergoing periodic swarming. A colony in the pr...

Schematic diagram of the model and the behavior of a model simulation.

Hisashi Murakami (565962)
Takenori Tomaru (565963)
Yuta Nishiyama (565964)
Toru Moriyama (565965)
Takayuki Niizato (162226)
Yukio-Pegio Gunji (162230)

May 2014

(A) Illustration of a transition of a swarm in lattice space. Each individual is represented by a...

Swarming is affected by degS S76D.

Carsten Jers (356447)
Ahasanul Kobir (356448)
Elsebeth Oline Søndergaard (356449)
Peter Ruhdal Jensen (168177)
Ivan Mijakovic (27922)

February 2013

Swarming of the wild type B. subtilis and mutant strains degS S76A and degS ...

A Computational Model of Swarming in Proteus mirabilis

Filpo Lopez, Katherine

January 2021

The bacterial species, Proteus mirabilis, is a unique bacteria that differentiates into different ce...

Computational determination of the phase space of collective motility behaviors.

Tristan Ursell (73348)
Rosanna Man Wah Chau (454604)
Susanne Wisen (454605)
Devaki Bhaya (268447)
Kerwyn Casey Huang (73349)

September 2013

A) Simulations grouped into classes as a function of dimensionless bias force and mean cellular c...

Schematics showing possible variations of SC features and illustration of the Cellular Potts Model for simulation.

Ernest C. Y. Ho (538895)
Juan Nicolas Malagón (5843078)
Abha Ahuja (5843081)
Rama Singh (717588)
Ellen Larsen (5843084)

October 2018

A Confocal images of ♂ wt (male wildtype) SC (labelled green) at 23 and 36 hours after pupariation. ...

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (2/3)

Yu, J (via Mendeley Data)

July 2021

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (3/3)

Yu, J

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Agent-based models predict emergent behavior of heterogeneous cell populations in dynamic microenvironments: CELL COMPETITION (1/3)

Yu, J (via Mendeley Data)

July 2021

Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...

Results of a typical simulations.

Daniel Stockholm (25425)
Rachid Benchaouir (25426)
Julien Picot (25427)
Philippe Rameau (25428)
Thi My Anh Neildez (25429)
Gabriel Landini (25430)
Corinne Laplace-Builhé (25431)
Andras Paldi (15969)

February 2013

A: Results of a typical run at the exponential growth phase and at equilibrium (type A cel...

Top plot: average number of neighbors during a single run. Bottom plot: agents phylogeny for the same run. The roots are on the left, and each bifurcation represents a newborn agent.

Olaf Witkowski (2633398)
Takashi Ikegami (53782)

April 2016

The two plots show the progression of the average swarming in the population, indicated by the av...

Simulations of Cell Motion Deep Inside the Swarming Colony

Abstract

Extracted data

Simulations of Cell Motion Deep Inside the Swarming Colony

Abstract

Extracted data

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