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     The Stowers Institute for Medical Research seeks more effective means of preventing and curing disease through basic research on genes and proteins that control fundamental processes of cellular life.
Scientific Philosophy

     The Stowers Institute conducts basic research aimed at understanding how the genes and proteins of multicellular organisms work. The Institute has focused its resources in this field of science because genes and their protein products determine the development and sustenance of normal life and hold the key to the origin of disease.

     DNA carries in its sequence the genes that encode vast numbers of different proteins that are synthesized throughout the life cycle. It also encodes the regulatory instructions that determine exactly when and where each of those genes will be expressed. The Institute's research on genes and gene regulatory mechanisms will include explorations of both the normal expression of genetic information in development and abnormal expression in diseases such as cancer.

     The basic goal is to understand the flow of genetic information during life and the translation of this information into functioning proteins that govern how cells multiply, differentiate, migrate, and die. Research conducted in pursuit of this goal is widely acknowledged to be crucial to the advancement of medical science. Many research organizations in the United States and elsewhere devote resources to these issues.

     The Institute emphasizes the following approaches:
  • Research programs seek to penetrate the organization and regulation of the genome to understand how complex patterns of gene expression are controlled and what they mean.

  • Research programs employ sophisticated approaches to solve problems of genomic and proteomic function, including life processes that involve many interacting macromolecules and causally linked functions.

  • Research programs strive to identify predisposing genes and proteins involved in diseases such as cancer so that diagnostic tools and new therapeutic strategies can be developed.

  • Research programs rely on state-of-the-art technologies that allow Institute scientists to deal with biological complexity, e.g. gene sequencing, gene expression arrays, analytic technologies of proteomics such as mass spectrometry and advanced protein separation methodologies. This requires an unusually interdisciplinary approach that ensures close collaboration with other scientists.

  • Research programs employ model systems such as the mouse, fruit fly, sea urchin and yeast to discern the role and regulation of genes and proteins relevant to human physiology and disease.

  • Research programs employ the latest methods of bioinformatics and will develop new computational tools in collaboration with computer scientists and applied mathematicians.

  • Research programs at the Institute actively seek meaningful collaboration with similar programs at other research institutions. The modern tools of communication technology will be employed to assure the success of these collaborations.

     Scientific personnel above the level of postdoctoral research scientists will be chosen according to the same research credentials that apply to tenure-track appointments at premier research universities and to appointments of independent investigators at the Howard Hughes Medical Institute. The Stowers Institute will compete for the best of the best in staffing its Kansas City laboratories.