DREAM 4 – In Silico Network Challenge
Learn More The goal of the in silico network challenge is to reverse engineer gene regulation networks from simulated steady-state and time-series
Learn More The goal of the in silico network challenge is to reverse engineer gene regulation networks from simulated steady-state and time-series
Learn More Approximately 10,000 intracellular measurements (fluorescence signals proportional to the concentrations of phosphorylated proteins) andextracellular measurements (concentrations of cytokines released in
Learn More This challenge explores the extent to which our current knowledge of signaling pathways, collected from a variety of cell types,
Read More Gene expression time course data is provided for four different strains of yeast (S. Cerevisiae), after perturbation of the cells.
Learn More The goal of the in silico challenges is the reverse engineering of gene networks from steady state and time series
Learn More The concentration of four intracellular proteins or phospho-proteins (X1, X2, X3 and X4) participating in a signaling cascade were measured
Learn More A synthetic-biology network consisting of 5 interacting genes was created and transfected to an in-vivo model organism. The challenge consists
Learn More A panel of single-channel microarrays was collected for a particular microorganism, including some already published and some in-print data. The
Learn More For many pairs of bait and prey genes, yeast protein-protein interactions were tested in an unbiased fashion using a high
Learn More A number of potential transcriptional targets of BCL6, a gene that encodes for a transcription factor active in B cells,