Sombrero: Integrating self-organizing neural networks in the search for dna binding motifs

Shaun Mahony; Panayiotis V. Benos; Terry J. Smith; Aaron Golden

Sombrero: Integrating self-organizing neural networks in the search for dna binding motifs

Shaun Mahony, Panayiotis V. Benos, Terry J. Smith, Aaron Golden

Research output: Contribution to conference (Published) › Paper › peer-review

Abstract

Identification of the short DNA sequence motifs that serve as binding domains for transcription factors continues to be a challenging problem in computational biology. Currently popular methods of motif discovery are based on unsupervised techniques from the statistical learning theory literature. We present here a working prototype of a neural networks based system that aims to tackle the DNA regulatory motif identification problem. The system consists of three modules, the core module being a SOM-based motif-finder named SOMBRERO. The motif-finder is integrated in the prototype with a SOM-based pre-processing method that initialises SOMBRERO with relevant biological knowledge, as well as a self-organizing tree method that helps the user to interpret SOMBRERO's results. The system is demonstrated here using various datasets.

Original language	English
Pages	677-685
Number of pages	9
Publication status	Published - 2005
Event	5th Workshop on Self-Organizing Maps, WSOM 2005 - Paris, France Duration: 5 Sep 2005 → 8 Sep 2005

Conference

Conference	5th Workshop on Self-Organizing Maps, WSOM 2005
Country/Territory	France
City	Paris
Period	5/09/05 → 8/09/05

Keywords

Motif-finding
Self-Organizing Map
Self-Organizing Tree
Transcription factor binding sites

Cite this

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title = "Sombrero: Integrating self-organizing neural networks in the search for dna binding motifs",

abstract = "Identification of the short DNA sequence motifs that serve as binding domains for transcription factors continues to be a challenging problem in computational biology. Currently popular methods of motif discovery are based on unsupervised techniques from the statistical learning theory literature. We present here a working prototype of a neural networks based system that aims to tackle the DNA regulatory motif identification problem. The system consists of three modules, the core module being a SOM-based motif-finder named SOMBRERO. The motif-finder is integrated in the prototype with a SOM-based pre-processing method that initialises SOMBRERO with relevant biological knowledge, as well as a self-organizing tree method that helps the user to interpret SOMBRERO's results. The system is demonstrated here using various datasets.",

keywords = "Motif-finding, Self-Organizing Map, Self-Organizing Tree, Transcription factor binding sites",

author = "Shaun Mahony and Benos, \{Panayiotis V.\} and Smith, \{Terry J.\} and Aaron Golden",

year = "2005",

language = "English",

pages = "677--685",

note = "5th Workshop on Self-Organizing Maps, WSOM 2005 ; Conference date: 05-09-2005 Through 08-09-2005",

}

TY - CONF

T1 - Sombrero

T2 - 5th Workshop on Self-Organizing Maps, WSOM 2005

AU - Mahony, Shaun

AU - Benos, Panayiotis V.

AU - Smith, Terry J.

AU - Golden, Aaron

PY - 2005

Y1 - 2005

N2 - Identification of the short DNA sequence motifs that serve as binding domains for transcription factors continues to be a challenging problem in computational biology. Currently popular methods of motif discovery are based on unsupervised techniques from the statistical learning theory literature. We present here a working prototype of a neural networks based system that aims to tackle the DNA regulatory motif identification problem. The system consists of three modules, the core module being a SOM-based motif-finder named SOMBRERO. The motif-finder is integrated in the prototype with a SOM-based pre-processing method that initialises SOMBRERO with relevant biological knowledge, as well as a self-organizing tree method that helps the user to interpret SOMBRERO's results. The system is demonstrated here using various datasets.

AB - Identification of the short DNA sequence motifs that serve as binding domains for transcription factors continues to be a challenging problem in computational biology. Currently popular methods of motif discovery are based on unsupervised techniques from the statistical learning theory literature. We present here a working prototype of a neural networks based system that aims to tackle the DNA regulatory motif identification problem. The system consists of three modules, the core module being a SOM-based motif-finder named SOMBRERO. The motif-finder is integrated in the prototype with a SOM-based pre-processing method that initialises SOMBRERO with relevant biological knowledge, as well as a self-organizing tree method that helps the user to interpret SOMBRERO's results. The system is demonstrated here using various datasets.

KW - Motif-finding

KW - Self-Organizing Map

KW - Self-Organizing Tree

KW - Transcription factor binding sites

UR - http://www.scopus.com/inward/record.url?scp=84890290461&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:84890290461

SP - 677

EP - 685

Y2 - 5 September 2005 through 8 September 2005

ER -

Sombrero: Integrating self-organizing neural networks in the search for dna binding motifs

Abstract

Conference

Keywords

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