Identification of regulatory molecules in signaling pathways is critical for understanding cellular behavior. Given the complexity of the transcriptional gene network, the relationship between molecular expression and phenotype is difficult to determine using reductionist experimental methods. Computational models provide the means to characterize regulatory mechanisms and predict phenotype in the context of gene networks. Integrating gene expression data with phenotypic data in transcriptional network models enables systematic identification of critical molecules in a biological network. We developed an approach based on fuzzy logic to model cell budding in Saccharomyces cerevisiae using time series expression microarray data of the cell c...
Biological systems can be very complex and consist of several thousand components that interact with...
We describe the use of model-driven analysis of multiple data types relevant to transcriptional regu...
AbstractBackgroundIdentifying the differences between gene regulatory networks under varying biologi...
Identification of regulatory molecules in signaling pathways is critical for understanding cellular ...
Complex cellular processes, such as phenotype decision making, are exceedingly difficult to analyze ...
Cellular regulation is governed by dense biomolecular networks consisting of proteins, nucleotides, ...
Gene expression regulation is a fundamental cellular process that enables robust functioning of cell...
Living cells are the product of gene expression programs involving regulated transcription of thousa...
<p>(A) Phenotypes are the response of the cell to external signals mediated by cellular networks and...
The genotype and the environment significantly influence the behavior and phenotype of an organism. ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Computational and Systems Biology Program, 2...
Complex systems of numerous interacting biomolecules dictate cellular behavior. To better understan...
Recent technological advances in high-throughput data collection allow for the study of increasingly...
Background: Genome-scale metabolic models provide an opportunity for rational approaches to studies ...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
Biological systems can be very complex and consist of several thousand components that interact with...
We describe the use of model-driven analysis of multiple data types relevant to transcriptional regu...
AbstractBackgroundIdentifying the differences between gene regulatory networks under varying biologi...
Identification of regulatory molecules in signaling pathways is critical for understanding cellular ...
Complex cellular processes, such as phenotype decision making, are exceedingly difficult to analyze ...
Cellular regulation is governed by dense biomolecular networks consisting of proteins, nucleotides, ...
Gene expression regulation is a fundamental cellular process that enables robust functioning of cell...
Living cells are the product of gene expression programs involving regulated transcription of thousa...
<p>(A) Phenotypes are the response of the cell to external signals mediated by cellular networks and...
The genotype and the environment significantly influence the behavior and phenotype of an organism. ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Computational and Systems Biology Program, 2...
Complex systems of numerous interacting biomolecules dictate cellular behavior. To better understan...
Recent technological advances in high-throughput data collection allow for the study of increasingly...
Background: Genome-scale metabolic models provide an opportunity for rational approaches to studies ...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
Biological systems can be very complex and consist of several thousand components that interact with...
We describe the use of model-driven analysis of multiple data types relevant to transcriptional regu...
AbstractBackgroundIdentifying the differences between gene regulatory networks under varying biologi...