Precise regulation of the cell cycle is crucial to the growth and development of all organisms. Understanding the regulatory mechanism of the cell cycle is crucial to unraveling many complicated diseases, most notably cancer. Multiple sources of biological data are available to study the dynamic interactions among many genes that are related to the cancer cell cycle. Integrating these informative and complementary data sources can help to infer a mutually consistent gene transcriptional regulatory network with strong similarity to the underlying gene regulatory relationships in cancer cells.We propose an integrative framework that infers gene regulatory modules from the cell cycle of cancer cells by incorporating multiple sources of biologi...
Abstract Background Knowledge of interaction types in...
Feedback control is an important regulatory process in biological systems, which confers robustness ...
Single-cell RNA-seq will allow building cell atlases for any tissue in any species, and studying the...
Many human diseases including cancer are the result of perturbations to transcriptional regulatory n...
Abstract Background Integrating data from multiple global assays and curated databases is essential ...
The main goal of Systems Biology research is to reconstruct biological networks for its topological ...
The processes that take place during development and differentiation are directed through coordinate...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
Abstract Background Gene expression is regulated by D...
Gene expression is a tightly controlled process in all cells and at all stages of life. Expressing ...
Background: Knowledge of interaction types in biological networks is important for understanding the...
Living cells are the product of gene expression programs involving regulated transcription of thousa...
Uncovering the system-level transcriptional regulatory architecture of gene expression in human has ...
Technological advancements have enabled quantification of processes within and around us. The inform...
Abstract : The human body is composed of a huge number of cells acting together in a concerted manne...
Abstract Background Knowledge of interaction types in...
Feedback control is an important regulatory process in biological systems, which confers robustness ...
Single-cell RNA-seq will allow building cell atlases for any tissue in any species, and studying the...
Many human diseases including cancer are the result of perturbations to transcriptional regulatory n...
Abstract Background Integrating data from multiple global assays and curated databases is essential ...
The main goal of Systems Biology research is to reconstruct biological networks for its topological ...
The processes that take place during development and differentiation are directed through coordinate...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
Abstract Background Gene expression is regulated by D...
Gene expression is a tightly controlled process in all cells and at all stages of life. Expressing ...
Background: Knowledge of interaction types in biological networks is important for understanding the...
Living cells are the product of gene expression programs involving regulated transcription of thousa...
Uncovering the system-level transcriptional regulatory architecture of gene expression in human has ...
Technological advancements have enabled quantification of processes within and around us. The inform...
Abstract : The human body is composed of a huge number of cells acting together in a concerted manne...
Abstract Background Knowledge of interaction types in...
Feedback control is an important regulatory process in biological systems, which confers robustness ...
Single-cell RNA-seq will allow building cell atlases for any tissue in any species, and studying the...