Topological comparison between the feed efficiency network and 10 randomly generated networks.

(A) Path length distribution.

Anna Delprato (119153)

September 2012

Frequency distribution of path lengths for all interactions in the network. (B) Bottlenecks.</...

Comparison of networks identified from multiple cancer vs. normal tissue microarray datasets.

Jie Zhang (64655)
Kewei Lu (138871)
Yang Xiang (35912)
Muhtadi Islam (138875)
Shweta Kotian (138877)
Zeina Kais (138880)
Cindy Lee (138883)
Mansi Arora (138885)
Hui-wen Liu (138888)
Jeffrey D. Parvin (138893)
Kun Huang (136241)

August 2012

Top 13 networks (ranked by size) were shown. The size of each circle represents the relative size...

Exploring the morphospace of communication efficiency in complex networks.

Joaquín Goñi
Andrea Avena-Koenigsberger
Nieves Velez de Mendizabal
Martijn P van den Heuvel
Richard F Betzel
Olaf Sporns

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

The feed efficiency network.

Philipp Widmann (724311)
Antonio Reverter (61185)
Rosemarie Weikard (82446)
Karsten Suhre (67967)
Harald M. Hammon (317346)
Elke Albrecht (170523)
Christa Kuehn (82445)

April 2015

Each dot in the network represents a gene putatively relevant for variation in feed efficiency. G...

Topological properties of genetic networks.

Cong Liu (66219)
Kyla Omilusik (13864191)
Clara Toma (13864194)
Nadia S. Kurd (13864197)
John T. Chang (13864200)
Ananda W. Goldrath (5479484)
Wei Wang (17594)

September 2022

(A) The number of edges (top) and nodes (bottom) in each genetic network. (B) The distribution of th...

This figure shows the edges (grey) of the Multinet, which correspond to interactions between genes.

Ekta Khurana (386863)
Yao Fu (386864)
Jieming Chen (386865)
Mark Gerstein (774)

March 2013

Only the interactions of genes that are involved in more than one network are shown for clarity. ...

Topological measures of the static and active networks of six time points.

Woochang Hwang (87586)
Laszlo Hackler Jr. (129803)
George Wu (129805)
Hongkai Ji (22411)
Donald J. Zack (9715)
Jiang Qian (771)

October 2012

Out-degree is the number of regulated genes by a TF or miRNA. In-degree is the number of regulati...

Network properties of proteins selected at gene-wise P<0.1 in each ASD.

Catarina Correia (698057)
Guiomar Oliveira (184923)
Astrid M. Vicente (174615)

November 2014

a) Comparison of percentage of direct interactions and isolated nodes between proteins sel...

Amin Allahyar (2620357)
Joske Ubels (6307664)
Jeroen de Ridder (66819)

February 2019

The x-axis represents the percentage of top gene/links used, the y-axis the z-score of observed vs. ...

Exploring the Morphospace of Communication Efficiency in Complex Networks

Joaquín Goñi (3270741)
Andrea Avena-Koenigsberger (386472)
Nieves Velez de Mendizabal (386473)
Martijn P. van den Heuvel (131127)
Richard F. Betzel (386474)
Olaf Sporns (2645)

March 2013

<div>Graph theoretical analysis has played a key role in characterizing global features of the to...

Exploring the Morphospace of Communication Efficiency in Complex Networks

Goñi, Joaquín
Avena-Koenigsberger, Andrea
Velez de Mendizabal, Nieves
van den Heuvel, Martijn P.
Betzel, Richard F.
Sporns, Olaf

March 2013

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

Exploring the Morphospace of Communication Efficiency in Complex Networks

Andrea Avena-koenigsberger
Nieves Velez De Mendizabal
Martijn P. Van Den
Richard F. Betzel
Olaf Sporns

October 2016

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

Mycelial and vasculature networks exhibit distinct tradeoffs between wiring, physical efficiency, and structural robustness.

Lia Papadopoulos (5727941)
Pablo Blinder (269181)
Henrik Ronellenfitsch (839941)
Florian Klimm (544145)
Eleni Katifori (159700)
David Kleinfeld (72230)
Danielle S. Bassett (215337)

September 2018

In panels (A-C) the x-axis labels the kind of network, with the curly braces grouping the mycelia (f...

Network sizes and the number of network hubs.

Yuri Pritykin (469506)
Mona Singh (3194)

October 2013

The number of vertices (genes) and edges (interactions) in each network, the number of interactio...

Comparison of MERLIN against per-gene and per-module network inference algorithms using simulated data.

Sushmita Roy (16077)
Stephen Lagree (473663)
Zhonggang Hou (256486)
James A. Thomson (386646)
Ron Stewart (114673)
Audrey P. Gasch (197708)

October 2013

A. Comparison based on fold enrichment of true edges in the inferred network. The cartoon ...

(A) Path length distribution.

Anna Delprato (119153)

September 2012

Frequency distribution of path lengths for all interactions in the network. (B) Bottlenecks.</...

Comparison of networks identified from multiple cancer vs. normal tissue microarray datasets.

Jie Zhang (64655)
Kewei Lu (138871)
Yang Xiang (35912)
Muhtadi Islam (138875)
Shweta Kotian (138877)
Zeina Kais (138880)
Cindy Lee (138883)
Mansi Arora (138885)
Hui-wen Liu (138888)
Jeffrey D. Parvin (138893)
Kun Huang (136241)

August 2012

Top 13 networks (ranked by size) were shown. The size of each circle represents the relative size...

Exploring the morphospace of communication efficiency in complex networks.

Joaquín Goñi
Andrea Avena-Koenigsberger
Nieves Velez de Mendizabal
Martijn P van den Heuvel
Richard F Betzel
Olaf Sporns

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

The feed efficiency network.

Philipp Widmann (724311)
Antonio Reverter (61185)
Rosemarie Weikard (82446)
Karsten Suhre (67967)
Harald M. Hammon (317346)
Elke Albrecht (170523)
Christa Kuehn (82445)

April 2015

Each dot in the network represents a gene putatively relevant for variation in feed efficiency. G...

Topological properties of genetic networks.

Cong Liu (66219)
Kyla Omilusik (13864191)
Clara Toma (13864194)
Nadia S. Kurd (13864197)
John T. Chang (13864200)
Ananda W. Goldrath (5479484)
Wei Wang (17594)

September 2022

(A) The number of edges (top) and nodes (bottom) in each genetic network. (B) The distribution of th...

This figure shows the edges (grey) of the Multinet, which correspond to interactions between genes.

Ekta Khurana (386863)
Yao Fu (386864)
Jieming Chen (386865)
Mark Gerstein (774)

March 2013

Only the interactions of genes that are involved in more than one network are shown for clarity. ...

Topological measures of the static and active networks of six time points.

Woochang Hwang (87586)
Laszlo Hackler Jr. (129803)
George Wu (129805)
Hongkai Ji (22411)
Donald J. Zack (9715)
Jiang Qian (771)

October 2012

Out-degree is the number of regulated genes by a TF or miRNA. In-degree is the number of regulati...

Network properties of proteins selected at gene-wise P<0.1 in each ASD.

Catarina Correia (698057)
Guiomar Oliveira (184923)
Astrid M. Vicente (174615)

November 2014

a) Comparison of percentage of direct interactions and isolated nodes between proteins sel...

Amin Allahyar (2620357)
Joske Ubels (6307664)
Jeroen de Ridder (66819)

February 2019

The x-axis represents the percentage of top gene/links used, the y-axis the z-score of observed vs. ...

Exploring the Morphospace of Communication Efficiency in Complex Networks

Joaquín Goñi (3270741)
Andrea Avena-Koenigsberger (386472)
Nieves Velez de Mendizabal (386473)
Martijn P. van den Heuvel (131127)
Richard F. Betzel (386474)
Olaf Sporns (2645)

March 2013

<div>Graph theoretical analysis has played a key role in characterizing global features of the to...

Exploring the Morphospace of Communication Efficiency in Complex Networks

Goñi, Joaquín
Avena-Koenigsberger, Andrea
Velez de Mendizabal, Nieves
van den Heuvel, Martijn P.
Betzel, Richard F.
Sporns, Olaf

March 2013

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

Exploring the Morphospace of Communication Efficiency in Complex Networks

Andrea Avena-koenigsberger
Nieves Velez De Mendizabal
Martijn P. Van Den
Richard F. Betzel
Olaf Sporns

October 2016

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

Mycelial and vasculature networks exhibit distinct tradeoffs between wiring, physical efficiency, and structural robustness.

Lia Papadopoulos (5727941)
Pablo Blinder (269181)
Henrik Ronellenfitsch (839941)
Florian Klimm (544145)
Eleni Katifori (159700)
David Kleinfeld (72230)
Danielle S. Bassett (215337)

September 2018

In panels (A-C) the x-axis labels the kind of network, with the curly braces grouping the mycelia (f...

Network sizes and the number of network hubs.

Yuri Pritykin (469506)
Mona Singh (3194)

October 2013

The number of vertices (genes) and edges (interactions) in each network, the number of interactio...

Comparison of MERLIN against per-gene and per-module network inference algorithms using simulated data.

Sushmita Roy (16077)
Stephen Lagree (473663)
Zhonggang Hou (256486)
James A. Thomson (386646)
Ron Stewart (114673)
Audrey P. Gasch (197708)

October 2013

A. Comparison based on fold enrichment of true edges in the inferred network. The cartoon ...

(A) Path length distribution.

Anna Delprato (119153)

September 2012

Frequency distribution of path lengths for all interactions in the network. (B) Bottlenecks.</...

Comparison of networks identified from multiple cancer vs. normal tissue microarray datasets.

Jie Zhang (64655)
Kewei Lu (138871)
Yang Xiang (35912)
Muhtadi Islam (138875)
Shweta Kotian (138877)
Zeina Kais (138880)
Cindy Lee (138883)
Mansi Arora (138885)
Hui-wen Liu (138888)
Jeffrey D. Parvin (138893)
Kun Huang (136241)

August 2012

Top 13 networks (ranked by size) were shown. The size of each circle represents the relative size...

Exploring the morphospace of communication efficiency in complex networks.

Joaquín Goñi
Andrea Avena-Koenigsberger
Nieves Velez de Mendizabal
Martijn P van den Heuvel
Richard F Betzel
Olaf Sporns

Graph theoretical analysis has played a key role in characterizing global features of the topology o...

Topological comparison between the feed efficiency network and 10 randomly generated networks.

Abstract

Extracted data

Topological comparison between the feed efficiency network and 10 randomly generated networks.

Abstract

Extracted data

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