Attractors of the IGF/Wnt crosstalk model.

Fig 10 -

Ling Zhang (18071)
Zheng Zhang (88857)

September 2023

Diagram of attractor: (a) model N with α2 = 4.5 and α3 = 7.8. (b) Model C with α2 = 6.4 and α3 = 5.5...

The parameter set and emerging attractors.

Tadashi Miyamoto (126889)
Chikara Furusawa (76742)
Kunihiko Kaneko (25945)

August 2015

The horizontal and vertical axes represent the values of parameters K34, K</...

Influence of overactivation of WNT and/or BMP on attractor canalisation.

Johan Kerkhofs (167468)
Jeroen Leijten (2835695)
Johanna Bolander (3140484)
Frank P. Luyten (143446)
Janine N. Post (123413)
Liesbet Geris (127738)

August 2016

Model 1 is the network as shown in <a href="http://www.plosone.org/article/info:doi/10.1371/journ...

Attractors of the sub-networks.

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

(A) Simulation of the IGF sub-network lead to attractors A, B and C, the first of which could be ...

Results of network model simulations.

Franziska Herrmann (132785)
Alexander Groß (132786)
Dao Zhou (132787)
Hans A. Kestler (132788)
Michael Kühl (132789)

October 2012

Gene activity for all genes of the model is presented at distinct network states. A green box ind...

Effects of input factors in signaling cascade.

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

(A) Based on an initial state where all nodes are inactive, a simulation of a signaling cascade w...

Crosstalk of IGF and Wnt signaling.

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

IGF and Wnt signaling are simplified and reduced to their most important nodes. Signaling pathway...

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

(A) The age-related shift from IGF to Wnt happens stepwise. At the beginning of this shift both s...

Attractors and cell types The stationary states of the regulatory network correspond to multiple activation patterns that characterize different cell types.

Akram Méndez (845155)
Luis Mendoza (2090)

January 2016

Attractors and cell types The stationary states of the regulatory network correspond to multiple ...

Attractors of the Boolean network model of the wild-type fission yeast cell cycle network, as described in Fig. 1.

Maria I. Davidich (86955)
Stefan Bornholdt (86956)

September 2013

Each column is associated with a node in the model, each row represents an attractor state (fixed...

The attractors of the Boolean model depicted in Fig 1C obtained from the asynchronous updating method.

Mohieddin Jafari (1426771)
Naser Ansari-Pour (1426765)
Sadegh Azimzadeh (4710228)
Mehdi Mirzaie (3505145)

December 2017

Each version of the model illustrated the presence of simple attractors, the complex (loose) attr...

Attractor corresponding to a dynamic network of CC in A. thaliana.

Elizabeth Ortiz-Gutiérrez (409501)
Karla García-Cruz (792270)
Eugenio Azpeitia (409500)
Aaron Castillo (792271)
María de la Paz Sánchez (5665045)
Elena R. Álvarez-Buylla (3265740)

September 2015

100% of the whole set of network configurations converges to a unique attractor composed by 11 co...

Network motifs governing four-attractor systems.

Yujie Ye (6433835)
Xin Kang (715757)
Jordan Bailey (6433838)
Chunhe Li (232637)
Tian Hong (211721)

March 2019

A. Illustration of the network topology searching. Dashed arrows are regulations sampled. The topolo...

On attracting sets in artificial networks: cross activation

Felix Sadyrbaev

January 2018

Mathematical models of artificial networks can be formulated in terms of dynamical systems describin...

The ten attractors reached by the SPN.

Manuel Marques-Pita (387009)
Luis M. Rocha (387010)

March 2013

These attractors are divided in four groups: wild-type, broad-stripe, no segmentation and ectopic...

Fig 10 -

Ling Zhang (18071)
Zheng Zhang (88857)

September 2023

Diagram of attractor: (a) model N with α2 = 4.5 and α3 = 7.8. (b) Model C with α2 = 6.4 and α3 = 5.5...

The parameter set and emerging attractors.

Tadashi Miyamoto (126889)
Chikara Furusawa (76742)
Kunihiko Kaneko (25945)

August 2015

The horizontal and vertical axes represent the values of parameters K34, K</...

Influence of overactivation of WNT and/or BMP on attractor canalisation.

Johan Kerkhofs (167468)
Jeroen Leijten (2835695)
Johanna Bolander (3140484)
Frank P. Luyten (143446)
Janine N. Post (123413)
Liesbet Geris (127738)

August 2016

Model 1 is the network as shown in <a href="http://www.plosone.org/article/info:doi/10.1371/journ...

Attractors of the sub-networks.

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

(A) Simulation of the IGF sub-network lead to attractors A, B and C, the first of which could be ...

Results of network model simulations.

Franziska Herrmann (132785)
Alexander Groß (132786)
Dao Zhou (132787)
Hans A. Kestler (132788)
Michael Kühl (132789)

October 2012

Gene activity for all genes of the model is presented at distinct network states. A green box ind...

Effects of input factors in signaling cascade.

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

(A) Based on an initial state where all nodes are inactive, a simulation of a signaling cascade w...

Crosstalk of IGF and Wnt signaling.

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

IGF and Wnt signaling are simplified and reduced to their most important nodes. Signaling pathway...

Lea Siegle (5040698)
Julian D. Schwab (5040692)
Silke D. Kühlwein (5040695)
Ludwig Lausser (3822364)
Stefan Tümpel (232016)
Astrid S. Pfister (515869)
Michael Kühl (132789)
Hans A. Kestler (132788)

March 2018

(A) The age-related shift from IGF to Wnt happens stepwise. At the beginning of this shift both s...

Attractors and cell types The stationary states of the regulatory network correspond to multiple activation patterns that characterize different cell types.

Akram Méndez (845155)
Luis Mendoza (2090)

January 2016

Attractors and cell types The stationary states of the regulatory network correspond to multiple ...

Attractors of the Boolean network model of the wild-type fission yeast cell cycle network, as described in Fig. 1.

Maria I. Davidich (86955)
Stefan Bornholdt (86956)

September 2013

Each column is associated with a node in the model, each row represents an attractor state (fixed...

The attractors of the Boolean model depicted in Fig 1C obtained from the asynchronous updating method.

Mohieddin Jafari (1426771)
Naser Ansari-Pour (1426765)
Sadegh Azimzadeh (4710228)
Mehdi Mirzaie (3505145)

December 2017

Each version of the model illustrated the presence of simple attractors, the complex (loose) attr...

Attractor corresponding to a dynamic network of CC in A. thaliana.

Elizabeth Ortiz-Gutiérrez (409501)
Karla García-Cruz (792270)
Eugenio Azpeitia (409500)
Aaron Castillo (792271)
María de la Paz Sánchez (5665045)
Elena R. Álvarez-Buylla (3265740)

September 2015

100% of the whole set of network configurations converges to a unique attractor composed by 11 co...

Network motifs governing four-attractor systems.

Yujie Ye (6433835)
Xin Kang (715757)
Jordan Bailey (6433838)
Chunhe Li (232637)
Tian Hong (211721)

March 2019

A. Illustration of the network topology searching. Dashed arrows are regulations sampled. The topolo...

On attracting sets in artificial networks: cross activation

Felix Sadyrbaev

January 2018

Mathematical models of artificial networks can be formulated in terms of dynamical systems describin...

The ten attractors reached by the SPN.

Manuel Marques-Pita (387009)
Luis M. Rocha (387010)

March 2013

These attractors are divided in four groups: wild-type, broad-stripe, no segmentation and ectopic...

Fig 10 -

Ling Zhang (18071)
Zheng Zhang (88857)

September 2023

Diagram of attractor: (a) model N with α2 = 4.5 and α3 = 7.8. (b) Model C with α2 = 6.4 and α3 = 5.5...

The parameter set and emerging attractors.

Tadashi Miyamoto (126889)
Chikara Furusawa (76742)
Kunihiko Kaneko (25945)

August 2015

The horizontal and vertical axes represent the values of parameters K34, K</...

Influence of overactivation of WNT and/or BMP on attractor canalisation.

Johan Kerkhofs (167468)
Jeroen Leijten (2835695)
Johanna Bolander (3140484)
Frank P. Luyten (143446)
Janine N. Post (123413)
Liesbet Geris (127738)

August 2016

Model 1 is the network as shown in <a href="http://www.plosone.org/article/info:doi/10.1371/journ...

Attractors of the IGF/Wnt crosstalk model.

Abstract

Extracted data

Attractors of the IGF/Wnt crosstalk model.

Abstract

Extracted data

Related items

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