Feedback control is an important regulatory process in biological systems, which confers robustness against external and internal disturbances. Genes involved in feedback structures are therefore likely to have a major role in regulating cellular processes. Here we rely on a dynamic Bayesian network approach to identify feedback loops in cell cycle regulation. We analyzed the transcriptional profile of the cell cycle in HeLa cancer cells and identified a feedback loop structure composed of 10 genes. In silico analyses showed that these genes hold important roles in system's dynamics. The results of published experimental assays confirmed the central role of 8 of the identified feedback loop genes in cell cycle regulation. In conclusion, we ...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
The high complexity in the gene regulation mechanism and the prevalent noise in high-throughput dete...
In this work, we map the transcriptional targets of 107 previously identified Drosophila genes whose...
Feedback control is an important regulatory process in biological systems, which confers robustness ...
AbstractFeedback control is an important regulatory process in biological systems, which confers rob...
Two major challenges in inferring the sparse topological architecture of Gene Regulatory Networks us...
Precise regulation of the cell cycle is crucial to the growth and development of all organisms. Unde...
The inference of gene regulatory networks (GRN) from microarrray data suffers from the low accuracy ...
Abstract Background Feedback loops in gene regulatory networks play pivotal roles in governing funct...
The molecular circuits of cell cycle control serve as a key hub to integrate from endogenous and env...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
The study of the cell-cycle is important in order to aid in our understanding of the basic mechanism...
In this work, we map the transcriptional targets of 107 previously identified Drosophila genes whose...
The experimental microarray data has the potential application in determining the underlying mechani...
With the advent of high-throughput biology, we now routinely scan cells and organisms at practically...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
The high complexity in the gene regulation mechanism and the prevalent noise in high-throughput dete...
In this work, we map the transcriptional targets of 107 previously identified Drosophila genes whose...
Feedback control is an important regulatory process in biological systems, which confers robustness ...
AbstractFeedback control is an important regulatory process in biological systems, which confers rob...
Two major challenges in inferring the sparse topological architecture of Gene Regulatory Networks us...
Precise regulation of the cell cycle is crucial to the growth and development of all organisms. Unde...
The inference of gene regulatory networks (GRN) from microarrray data suffers from the low accuracy ...
Abstract Background Feedback loops in gene regulatory networks play pivotal roles in governing funct...
The molecular circuits of cell cycle control serve as a key hub to integrate from endogenous and env...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
The study of the cell-cycle is important in order to aid in our understanding of the basic mechanism...
In this work, we map the transcriptional targets of 107 previously identified Drosophila genes whose...
The experimental microarray data has the potential application in determining the underlying mechani...
With the advent of high-throughput biology, we now routinely scan cells and organisms at practically...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
The high complexity in the gene regulation mechanism and the prevalent noise in high-throughput dete...
In this work, we map the transcriptional targets of 107 previously identified Drosophila genes whose...