A sub-network for the G-box motif based on motif enrichment analysis.

GO enrichment of co-expression modules identified in the G-Box sub-network*.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

*GO enrichment was calculated according to the modules in <a href="http://www.plosgenetics.org/ar...

The G-box transcriptional regulatory code in Arabidopsis

Ezer, Daphne
Shepherd, Samuel J. K.
Brestovitsky, Anna
Dickinson, Patrick
Cortijo, Sandra
Charoensawan, Varodom
Box, Mathew S.
Biswas, Surojit
Jaeger, Katja
Wigge, Philip A.

October 2017

Plants have significantly more transcription factor (TF) families than animals and fungi, and plant ...

Discovery of Novel Human Gene Regulatory Modules from Gene Co-expression and Promoter Motif Analysis.

Ma, Shisong
Snyder, Michael
Dinesh-Kumar, Savithramma P

July 2017

Deciphering gene regulatory networks requires identification of gene expression modules. We describe...

A sub-network for the G-box motif based on the motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif position analysis with z-score> = 3. Thirteen modules were ide...

A sub-network for the W-box motif based on the motif enrichment analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif enrichment analysis with pValue for the W-box motifs < = 0.001...

A sub-network for the W-box motif based on motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif position analysis with z-score> = 3. Five modules were identif...

A sub-network for the MYB motifs based on motif enrichment analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif enrichment analysis with a pValue for MYB motifs < = 0.01. Ten...

A sub-network with the top 6,000 co-expressed gene pairs extracted from the whole gene co-expression network.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

(A) Genes identified to be regulated by the G-box, MYB, W-box, and site II element motifs are spr...

Incorporating motif analysis into gene co-expression networks reveals novel modular expression pattern and new signaling pathways. PLoS Genetics 9

Shisong Ma
Smit Shah
Hans J. Bohnert
Michael Snyder
Savithramma P. Dinesh-kumar

January 2013

Understanding of gene regulatory networks requires discovery of expression modules within gene co-ex...

Incorporating Motif Analysis into Gene Co-expression Networks Reveals Novel Modular Expression Pattern and New Signaling Pathways

Ma, Shisong
Shah, Smit
Bohnert, Hans J
Snyder, Michael
Dinesh-Kumar, Savithramma P

January 2013

Understanding of gene regulatory networks requires discovery of expression modules within gene co-ex...

A sub-network for the MYB motifs based on motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif position analysis with z-score> = 2.2. Sixteen modules were id...

Motif enrichment and motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

(A) A representation of the co-expression network. Each node represents a gene, while a connectio...

GO enrichment of co-expression modules identified in the W-box motif sub-network*.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

*GO enrichment was calculated according to the modules in <a href="http://www.plosgenetics.org/ar...

Motif enrichment analysis reveals different motif usage in the phosphorylation and transcriptional regulatory networks.

Lin Wang (11986)
Lin Hou (177757)
Minping Qian (158025)
Minghua Deng (51065)

March 2012

Five regulatory motifs were investigated in three networks, phosphorylation network, transcriptio...

The modular network inferred for the genes from Module NC_622 (Use Case #2, Study 2).

Michael Baitaluk (19255)
Sergey Kozhenkov (109790)
Julia Ponomarenko (19124)

December 2012

Grey boxes represent gene regulatory modules; rectangles, genes in the modules; red rectangles, g...

GO enrichment of co-expression modules identified in the G-Box sub-network*.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

*GO enrichment was calculated according to the modules in <a href="http://www.plosgenetics.org/ar...

The G-box transcriptional regulatory code in Arabidopsis

Ezer, Daphne
Shepherd, Samuel J. K.
Brestovitsky, Anna
Dickinson, Patrick
Cortijo, Sandra
Charoensawan, Varodom
Box, Mathew S.
Biswas, Surojit
Jaeger, Katja
Wigge, Philip A.

October 2017

Plants have significantly more transcription factor (TF) families than animals and fungi, and plant ...

Discovery of Novel Human Gene Regulatory Modules from Gene Co-expression and Promoter Motif Analysis.

Ma, Shisong
Snyder, Michael
Dinesh-Kumar, Savithramma P

July 2017

Deciphering gene regulatory networks requires identification of gene expression modules. We describe...

A sub-network for the G-box motif based on the motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif position analysis with z-score> = 3. Thirteen modules were ide...

A sub-network for the W-box motif based on the motif enrichment analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif enrichment analysis with pValue for the W-box motifs < = 0.001...

A sub-network for the W-box motif based on motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif position analysis with z-score> = 3. Five modules were identif...

A sub-network for the MYB motifs based on motif enrichment analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif enrichment analysis with a pValue for MYB motifs < = 0.01. Ten...

A sub-network with the top 6,000 co-expressed gene pairs extracted from the whole gene co-expression network.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

(A) Genes identified to be regulated by the G-box, MYB, W-box, and site II element motifs are spr...

Incorporating motif analysis into gene co-expression networks reveals novel modular expression pattern and new signaling pathways. PLoS Genetics 9

Shisong Ma
Smit Shah
Hans J. Bohnert
Michael Snyder
Savithramma P. Dinesh-kumar

January 2013

Understanding of gene regulatory networks requires discovery of expression modules within gene co-ex...

Incorporating Motif Analysis into Gene Co-expression Networks Reveals Novel Modular Expression Pattern and New Signaling Pathways

Ma, Shisong
Shah, Smit
Bohnert, Hans J
Snyder, Michael
Dinesh-Kumar, Savithramma P

January 2013

Understanding of gene regulatory networks requires discovery of expression modules within gene co-ex...

A sub-network for the MYB motifs based on motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

Genes were identified in the motif position analysis with z-score> = 2.2. Sixteen modules were id...

Motif enrichment and motif position bias analysis.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

(A) A representation of the co-expression network. Each node represents a gene, while a connectio...

GO enrichment of co-expression modules identified in the W-box motif sub-network*.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

*GO enrichment was calculated according to the modules in <a href="http://www.plosgenetics.org/ar...

Motif enrichment analysis reveals different motif usage in the phosphorylation and transcriptional regulatory networks.

Lin Wang (11986)
Lin Hou (177757)
Minping Qian (158025)
Minghua Deng (51065)

March 2012

Five regulatory motifs were investigated in three networks, phosphorylation network, transcriptio...

The modular network inferred for the genes from Module NC_622 (Use Case #2, Study 2).

Michael Baitaluk (19255)
Sergey Kozhenkov (109790)
Julia Ponomarenko (19124)

December 2012

Grey boxes represent gene regulatory modules; rectangles, genes in the modules; red rectangles, g...

GO enrichment of co-expression modules identified in the G-Box sub-network*.

Shisong Ma (31667)
Smit Shah (466242)
Hans J. Bohnert (144031)
Michael Snyder (16695)
Savithramma P. Dinesh-Kumar (144035)

October 2013

*GO enrichment was calculated according to the modules in <a href="http://www.plosgenetics.org/ar...

The G-box transcriptional regulatory code in Arabidopsis

Ezer, Daphne
Shepherd, Samuel J. K.
Brestovitsky, Anna
Dickinson, Patrick
Cortijo, Sandra
Charoensawan, Varodom
Box, Mathew S.
Biswas, Surojit
Jaeger, Katja
Wigge, Philip A.

October 2017

Plants have significantly more transcription factor (TF) families than animals and fungi, and plant ...

Discovery of Novel Human Gene Regulatory Modules from Gene Co-expression and Promoter Motif Analysis.

Ma, Shisong
Snyder, Michael
Dinesh-Kumar, Savithramma P

July 2017

Deciphering gene regulatory networks requires identification of gene expression modules. We describe...

A sub-network for the G-box motif based on motif enrichment analysis.

Abstract

Extracted data

A sub-network for the G-box motif based on motif enrichment analysis.

Abstract

Extracted data

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