The availability of whole genome sequences and high-throughput genomic assays opens the door for in silico analysis of transcription regulation. This includes methods for discovering and characterizing the binding sites of DNA-binding proteins, such as transcription factors. A common representation of transcription factor binding sites is a position specific score matrix (PSSM). This representation makes the strong assumption that binding site positions are independent of each other. In this work, we explore Bayesian network representations of binding sites that provide different tradeoffs between complexity (number of parameters) and the richness of dependencies between positions. We develop the formal machinery for learning such models fr...
Computational prediction of nucleotide binding specificity for transcription factors remains a funda...
BACKGROUND:The binding of transcription factors to their respective DNA sites is a key component of ...
Identifying transcription factor binding sites (TFBS) in silico is key in understanding gene regulat...
Abstract: The prediction of transcription factor binding sites is an important problem, since it rev...
Abstract: The prediction of transcription factor binding sites is an important problem, since it rev...
Motivation: The position-specific weight matrix (PWM) model, which assumes that each position in the...
Identifying transcription factor binding sites with experimental methods is often expensive and time...
Abstract. The identification of cis-regulatory binding sites in DNA is a difficult problem in comput...
Reconstructing transcriptional regulatory networks from experimental data is one of the corner-stone...
BACKGROUND: Computational prediction of Transcription Factor Binding Sites (TFBS) from sequence data...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
In this paper we apply machine learning to the task of predicting transcription factor binding sites...
Abstract. The identification of cis-regulatory binding sites in DNA is a difficult problem in comput...
A Bayesian method for sampling from the distribution of matches to a precompiled transcription facto...
Computational prediction of nucleotide binding specificity for transcription factors remains a funda...
BACKGROUND:The binding of transcription factors to their respective DNA sites is a key component of ...
Identifying transcription factor binding sites (TFBS) in silico is key in understanding gene regulat...
Abstract: The prediction of transcription factor binding sites is an important problem, since it rev...
Abstract: The prediction of transcription factor binding sites is an important problem, since it rev...
Motivation: The position-specific weight matrix (PWM) model, which assumes that each position in the...
Identifying transcription factor binding sites with experimental methods is often expensive and time...
Abstract. The identification of cis-regulatory binding sites in DNA is a difficult problem in comput...
Reconstructing transcriptional regulatory networks from experimental data is one of the corner-stone...
BACKGROUND: Computational prediction of Transcription Factor Binding Sites (TFBS) from sequence data...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
In this paper we apply machine learning to the task of predicting transcription factor binding sites...
Abstract. The identification of cis-regulatory binding sites in DNA is a difficult problem in comput...
A Bayesian method for sampling from the distribution of matches to a precompiled transcription facto...
Computational prediction of nucleotide binding specificity for transcription factors remains a funda...
BACKGROUND:The binding of transcription factors to their respective DNA sites is a key component of ...
Identifying transcription factor binding sites (TFBS) in silico is key in understanding gene regulat...