TY - CHAP M1 - Book, Section TI - Network Medicine: Systems Biology in Health and Disease A1 - Loscalzo, Joseph A2 - Jameson, J. Larry A2 - Fauci, Anthony S. A2 - Kasper, Dennis L. A2 - Hauser, Stephen L. A2 - Longo, Dan L. A2 - Loscalzo, Joseph PY - 2018 T2 - Harrison's Principles of Internal Medicine, 20e AB - The field of human biology has progressed over the last three centuries largely as a result of the reductionist approach to the scientific problems that challenge the discipline. Biologists study the experimental response of a variable of interest in a cell or organism while holding all other variables constant. In this way, it is possible to dissect the individual components of a biologic system and assume that a thorough understanding of a specific component (e.g., an enzyme or a transcription factor) will provide sufficient insight to explain the global behavior of that system (e.g., a metabolic pathway or a gene network, respectively). Biologic systems are, however, much more complex than this approach assumes and manifest behaviors that frequently (if not invariably) cannot be predicted from knowledge of their component parts characterized in isolation. Growing recognition of this shortcoming of conventional biologic research has led to the development of a new discipline, systems biology, which is defined as the holistic study of living organisms or their cellular or molecular network components to predict their response to perturbations. Concepts of systems biology can be applied readily to human disease and therapy and define the field of systems pathobiology, in which genetic or environmental perturbations produce disease and drug perturbations restore normal system behavior. SN - PB - McGraw-Hill Education CY - New York, NY Y2 - 2024/04/16 UR - accesspharmacy.mhmedical.com/content.aspx?aid=1156522148 ER -