Self-correcting networks: Function, robustness, and motif distributions in biological signal processing

Evolutionäre Entwicklung von komplexen funktionalen Netzwerken

Kaluza, P.

November 2007

Complex biological networks are responsible for many fundamental processes in living organisms, incl...

A Synthetic Biology Approach to Understanding Cellular Information Processing

Riccione, Katherine A.
Smith, Robert P.
Lee, Anna J.
You, Lingchong

September 2012

The survival of cells and organisms requires proper responses to environmental signals. These respon...

What you see is not what you get: how sampling affects macroscopic features of biological networks

A Annibale
Acc Coolen

January 2016

Abstract. We use mathematical methods from the theory of tailored random graphs to study systematica...

Self-correcting networks: Function, robustness, and motif distributions in biological signal processing

Kaluza, P.
Vingron, M.
Mikhailov, A.

June 2008

Statistical properties of large ensembles of networks, all designed to have the same functions of si...

Design and statistical properties of robust functional networks: A model study of biological signal transduction.

Kaluza, Pablo
Ipsen, Mads
Vingron, Martin
Mikhailov, Alexander S.

January 2007

A simple flow network model of biological signal transduction is investigated. Networks with prescri...

Design and statistical properties of robust functional networks: A model study of biological signal transduction

Kaluza, P.
Ipsen, M.
Vingron, M.
Mikhailov, A.

January 2007

A simple flow network model of biological signal transduction is investigated. Networks with prescri...

Dynamic Properties of Network Motifs Contribute to Biological Network Organization

Robert J Prill (59815)
Pablo A Iglesias (40210)
Andre Levchenko (34811)

January 2013

<div><p>Biological networks, such as those describing gene regulation, signal transduction, and neur...

Topological properties of robust biological and computational networks

Navlakha, S.
He, X.
Faloutsos, C.
Bar-Joseph, Z.

July 2014

Network robustness is an important principle in biology and engineering. Previous studies of global ...

Phys Rev E : Stat Nonlin Soft Matter Phys.

Kaluza, P.
Ipsen, M.
Vingron, M.
Mikhailov, A.

January 2007

A simple flow network model of biological signal transduction is investigated. Networks with prescri...

Robustness Can Evolve Gradually in Complex Regulatory Gene Networks with Varying Topology

Ciliberti, S.
Martin, Olivier C.
Wagner, A.

January 2007

The topology of cellular circuits (the who-interacts-with-whom) is key to understand their robustnes...

Noise robustness is dependent on functional structure of cell ensembles.

Paul C. Bush (704143)
Zachary F. Mainen (620338)

March 2015

<p>A: Shuffled results overlaid on the graph of <a href="http://www.plosone.org/article/info:doi/10....

Evolutionary design of functional networks robust against noise

Kaluza, P.
Mikhailov, A.

July 2007

Robustness against noise is characteristic for biological networks of a living cell. Engineering of ...

Accounting for robustness in modeling signal transduction responses

Mohammad Omid Oftadeh (6391118)
Sayed-Amir Marashi (63718)

February 2019

A classical question in systems biology is to find a Boolean model which is able to predict the obse...

Dynamics and processing in finite self-similar networks

Simon Dedeo
David
C. Krakauer

August 2016

Abstract. A common feature of biological networks is the geometric property of self-similarity. Mole...

ROBUSTNESS TO DAMAGE OF BIOLOGICAL AND SYNTHETIC NETWORKS

SERRA, Roberto
VILLANI, Marco
A. SEMERIA

January 2003

We analyze the perturbation of the expression levels of thousandsof genes when one of them is knocke...

Evolutionäre Entwicklung von komplexen funktionalen Netzwerken

Kaluza, P.

November 2007

Complex biological networks are responsible for many fundamental processes in living organisms, incl...

A Synthetic Biology Approach to Understanding Cellular Information Processing

Riccione, Katherine A.
Smith, Robert P.
Lee, Anna J.
You, Lingchong

September 2012

The survival of cells and organisms requires proper responses to environmental signals. These respon...

What you see is not what you get: how sampling affects macroscopic features of biological networks

A Annibale
Acc Coolen

January 2016

Abstract. We use mathematical methods from the theory of tailored random graphs to study systematica...

Self-correcting networks: Function, robustness, and motif distributions in biological signal processing

Kaluza, P.
Vingron, M.
Mikhailov, A.

June 2008

Statistical properties of large ensembles of networks, all designed to have the same functions of si...

Design and statistical properties of robust functional networks: A model study of biological signal transduction.

Kaluza, Pablo
Ipsen, Mads
Vingron, Martin
Mikhailov, Alexander S.

January 2007

A simple flow network model of biological signal transduction is investigated. Networks with prescri...

Design and statistical properties of robust functional networks: A model study of biological signal transduction

Kaluza, P.
Ipsen, M.
Vingron, M.
Mikhailov, A.

January 2007

A simple flow network model of biological signal transduction is investigated. Networks with prescri...

Dynamic Properties of Network Motifs Contribute to Biological Network Organization

Robert J Prill (59815)
Pablo A Iglesias (40210)
Andre Levchenko (34811)

January 2013

<div><p>Biological networks, such as those describing gene regulation, signal transduction, and neur...

Topological properties of robust biological and computational networks

Navlakha, S.
He, X.
Faloutsos, C.
Bar-Joseph, Z.

July 2014

Network robustness is an important principle in biology and engineering. Previous studies of global ...

Phys Rev E : Stat Nonlin Soft Matter Phys.

Kaluza, P.
Ipsen, M.
Vingron, M.
Mikhailov, A.

January 2007

A simple flow network model of biological signal transduction is investigated. Networks with prescri...

Robustness Can Evolve Gradually in Complex Regulatory Gene Networks with Varying Topology

Ciliberti, S.
Martin, Olivier C.
Wagner, A.

January 2007

The topology of cellular circuits (the who-interacts-with-whom) is key to understand their robustnes...

Noise robustness is dependent on functional structure of cell ensembles.

Paul C. Bush (704143)
Zachary F. Mainen (620338)

March 2015

<p>A: Shuffled results overlaid on the graph of <a href="http://www.plosone.org/article/info:doi/10....

Evolutionary design of functional networks robust against noise

Kaluza, P.
Mikhailov, A.

July 2007

Robustness against noise is characteristic for biological networks of a living cell. Engineering of ...

Accounting for robustness in modeling signal transduction responses

Mohammad Omid Oftadeh (6391118)
Sayed-Amir Marashi (63718)

February 2019

A classical question in systems biology is to find a Boolean model which is able to predict the obse...

Dynamics and processing in finite self-similar networks

Simon Dedeo
David
C. Krakauer

August 2016

Abstract. A common feature of biological networks is the geometric property of self-similarity. Mole...

ROBUSTNESS TO DAMAGE OF BIOLOGICAL AND SYNTHETIC NETWORKS

SERRA, Roberto
VILLANI, Marco
A. SEMERIA

January 2003

We analyze the perturbation of the expression levels of thousandsof genes when one of them is knocke...

Evolutionäre Entwicklung von komplexen funktionalen Netzwerken

Kaluza, P.

November 2007

Complex biological networks are responsible for many fundamental processes in living organisms, incl...

A Synthetic Biology Approach to Understanding Cellular Information Processing

Riccione, Katherine A.
Smith, Robert P.
Lee, Anna J.
You, Lingchong

September 2012

The survival of cells and organisms requires proper responses to environmental signals. These respon...

What you see is not what you get: how sampling affects macroscopic features of biological networks

A Annibale
Acc Coolen

January 2016

Abstract. We use mathematical methods from the theory of tailored random graphs to study systematica...

Self-correcting networks: Function, robustness, and motif distributions in biological signal processing

Abstract

Extracted data

Self-correcting networks: Function, robustness, and motif distributions in biological signal processing

Abstract

Extracted data

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