Add to ORKGBackground: Time-course microarray experiments have been widely used to identify cell cycle regulated genes. However, the method is not effective for lowly expressed genes and is sensitive to experimental conditions. To complement microarray experiments, we propose a computational method to predict cell cycle regulated genes based on their genomic features – transcription factor binding and motif profiles. Results: Through integrating gene-expression data with ChIP-chip binding and putative binding sites of transcription factors, our method shows high accuracy in discriminating yeast cell cycle regulated genes from non-cell cycle regulated ones. We predict 211 novel cell cycle regulated genes. Our model rediscovers the main cell cycle trans...
[[abstract]]Background ChIP-chip data, which indicate binding of transcription factors (TFs) to DNA ...
We compared microarray experiments on cell cycle of three model eukaryotes: budding and fission yeas...
Abstract Background Gene expression is regulated by D...
Cell cycle is a complex and highly supervised process that must proceed with regulatory precision to...
Abstract Background The cell cycle has long been an important model to study the genome-wide transcr...
The temporal control of transcription is likely a universal feature of cell cycles with clear transc...
The temporal control of transcription is likely a universal feature of cell cycles with clear transc...
Background: Cellular functions depend on genetic, physical and other types of interactions. As such,...
Background: Cellular functions depend on genetic, physical and other types of interactions. As such,...
We sought to create a comprehensive catalog of yeast genes whose transcript levels vary periodically...
[[abstract]]Background A transcriptional regulatory module (TRM) is a set of genes that is regulated...
Background: Combinatorial interaction of transcription factors (TFs) is important for gene regulatio...
AbstractGenome-wide location analysis was used to determine how the yeast cell cycle gene expression...
AbstractBy integrating heterogeneous functional genomic datasets, we have developed a new framework ...
Microarrays have been used to characterize gene expression through the yeast cell cycle. Computation...
[[abstract]]Background ChIP-chip data, which indicate binding of transcription factors (TFs) to DNA ...
We compared microarray experiments on cell cycle of three model eukaryotes: budding and fission yeas...
Abstract Background Gene expression is regulated by D...
Cell cycle is a complex and highly supervised process that must proceed with regulatory precision to...
Abstract Background The cell cycle has long been an important model to study the genome-wide transcr...
The temporal control of transcription is likely a universal feature of cell cycles with clear transc...
The temporal control of transcription is likely a universal feature of cell cycles with clear transc...
Background: Cellular functions depend on genetic, physical and other types of interactions. As such,...
Background: Cellular functions depend on genetic, physical and other types of interactions. As such,...
We sought to create a comprehensive catalog of yeast genes whose transcript levels vary periodically...
[[abstract]]Background A transcriptional regulatory module (TRM) is a set of genes that is regulated...
Background: Combinatorial interaction of transcription factors (TFs) is important for gene regulatio...
AbstractGenome-wide location analysis was used to determine how the yeast cell cycle gene expression...
AbstractBy integrating heterogeneous functional genomic datasets, we have developed a new framework ...
Microarrays have been used to characterize gene expression through the yeast cell cycle. Computation...
[[abstract]]Background ChIP-chip data, which indicate binding of transcription factors (TFs) to DNA ...
We compared microarray experiments on cell cycle of three model eukaryotes: budding and fission yeas...
Abstract Background Gene expression is regulated by D...