Automated analysis of genomic data is a crucial problem in post-sequencing genome era. In this thesis, we focus on exploring computational method to identify cisregulatory regions automatically.DOCTOR OF PHILOSOPHY (MAE
Background: In the human genome, 98% of DNA sequences are non-protein-coding regions that were previ...
This thesis presents methods for locating and analyzing cis–regulatory DNA elements involved with th...
Motivation: Analysis of gene regulatory sequences is of great interest for understanding molecular m...
In this paper we propose a new algorithm for identifying cis-regulatory modules in genomic sequence...
ISBN 1-86094-477-9In this paper we propose a new algorithm for identifying cis-regulatory modules in...
The majority of the human genome consists of non-coding regions that have been called junk DNA. Howe...
Computer-assisted analysis of DNA sequences used to be a task for the “local expert.” Ho...
The dissertation focuses on developing computational methods to discover cis -elements in promote...
Identification and annotation of all the functional elements in the genome, including genes and the ...
<p>Uncovering the DNA regulatory logic in complex organisms has been one of the important goals of m...
Motivation: The DNA sequence binding preferences of individual transcription factors are generally n...
Uncovering the DNA regulatory logic in complex organisms has been one of the important goals of mode...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
The full sequencing of the human genome ushered in the genomics era and laid the foundation for a mo...
Background: In the human genome, 98% of DNA sequences are non-protein-coding regions that were previ...
This thesis presents methods for locating and analyzing cis–regulatory DNA elements involved with th...
Motivation: Analysis of gene regulatory sequences is of great interest for understanding molecular m...
In this paper we propose a new algorithm for identifying cis-regulatory modules in genomic sequence...
ISBN 1-86094-477-9In this paper we propose a new algorithm for identifying cis-regulatory modules in...
The majority of the human genome consists of non-coding regions that have been called junk DNA. Howe...
Computer-assisted analysis of DNA sequences used to be a task for the “local expert.” Ho...
The dissertation focuses on developing computational methods to discover cis -elements in promote...
Identification and annotation of all the functional elements in the genome, including genes and the ...
<p>Uncovering the DNA regulatory logic in complex organisms has been one of the important goals of m...
Motivation: The DNA sequence binding preferences of individual transcription factors are generally n...
Uncovering the DNA regulatory logic in complex organisms has been one of the important goals of mode...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
The full sequencing of the human genome ushered in the genomics era and laid the foundation for a mo...
Background: In the human genome, 98% of DNA sequences are non-protein-coding regions that were previ...
This thesis presents methods for locating and analyzing cis–regulatory DNA elements involved with th...
Motivation: Analysis of gene regulatory sequences is of great interest for understanding molecular m...
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