Attendees of the 2012 Columbia Initiative in Systems Biology annual retreat.
The Columbia University Initiative in Systems Biology (CISB) is an interdisciplinary program based in New York City whose goal is to advance the integration of quantitative and experimental research methods in the biological and biomedical sciences. With a faculty of nearly two dozen members and onsite research infrastructure for high-performance computing, next-generation sequencing, and high-throughput screening, we conduct research to understand the behavior of complex biological networks and how small changes in those networks produce the diversity of life around us. We also provide PhD education and postdoctoral training to increase understanding of systems biology and promote its use in biological research.
Our research begins from the principle that physiologic and pathologic traits emerge from interactions within complex systems of genes, proteins, cells, epigenetic influences, and other factors. CISB researchers use recent advances in technology both to develop models of these systems and to validate them in the laboratory. We also develop software for the analysis of biological data, and make it available for use by other researchers around the world.
Doing this work requires investigators with a wide range of interests. Our program includes specialists in molecular biology, genetics, computational biology and bioinformatics, mathematics, chemistry and chemical biology, physics, computer science, and other fields. CISB supports basic science research in computational biophysics and structural biology, as well as the modeling of regulatory, signaling, and metabolic networks; pattern discovery and recognition; machine learning; and functional genomics. We also conduct research in disease-related areas such as cancer, infectious diseases, metabolic disorders, and neurodegenerative disease, as well as stem cell and regenerative medicine.
Since its founding in 2010, the Columbia Initiative in Systems Biology has coordinated the activities of the Center for Computational Biology and Bioinformatics and the Columbia Genome Center. We are also the home of seven centers of excellence, including the Center for Multiscale Analysis of Genomic and Cellular Networks (MAGNet), one of eight National Centers for Biomedical Computing and one of 12 interdisciplinary Centers for Cancer Systems Biology. By uniting Columbia’s computational expertise with capabilities in high-throughput experimentation and novel chemical synthesis, CISB has developed an integrated model for twenty-first century biological research