The researchers focused on a little studied organism that can survive high salt, radiation, and other stresses that would be deadly to most other organisms. By focusing on such an organism the researchers were able to show definitively that they could understand and model the circuit controlling the cell directly from experiments designed to measure all genes in the genome simultaneously. These are called systems-biology experiments. This scholarship is part of a new scientific field, systems biology, which examines how genes influence each other via extremely large networks of interaction and how these networks respond to stimuli, adapting over time to new environments and cell states.
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“This is also a good model to explain how, in general, cells make stable decisions as they move through time scales,” added Bonneau, who is part of an NYU research group that handled the analysis of this genome. “If you want to understand how cells respond to their environments, the model offers a clearer window than previously existed for this domain of life.” The collaboration between Baliga’s and Bonneau’s research groups represents a type of partnership becoming more essential to biological and biomedical research: biologists and computer scientists teaming up to design experiments and analysis that synergize to decipher living systems, resulting in ever more complex and accurate models of the cell.