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This volume provides an overview of a variety of approaches to biological image analysis, which allow for the study of living organisms at all levels of complexity and organization. These organisms range from individual macromolecules to subcellular and cellular volumes, tissues and microbial communities. Such a systems biology understanding of life requires the combination of a variety of imaging techniques, and with it an in-depth understanding of their respective strengths and limitations, as well as their intersection with other techniques. Howard, Brown, and Auer show us that the integration of these imaging techniques will allow us to overcome the reductionist approach to biology that dominated the twentieth century, which was aimed at examining the physical and chemical properties of life's constituents, one macromolecule at a time. However, while based on the laws of physics and chemistry, life is t simply a set of chemical reactions and physical forces; it features an exquisite spatiotemporal organization that allows an inconceivably large number of chemical processes to coexist, refined by billions of years of evolutionary experimentation. And yet, many fundamental questions remain largely unanswered; Imaging Life argues that we are just w beginning to address the spatiotemporal organizational component of living processes. Imaging is needed in order to reveal the spatiotemporal relationships between components, and thus to understand organizational guiding principles of living systems. Only through imaging will we be able to decipher the mechanisms and the marvelous organization that enable and sustain the mystery of life. Imaging Life shows us how biology is beginning to do just that.
Throughout his career, Gary Howard has been a part of the academic, biotech, and publishing scientific communities. In addition, he has experience in multiple experimental systems, including mouse, human, and Drosophila. Since 2004, Manfried Auer has been a staff scientist at the Lawrence Berkeley National Laboratory, and has been the Director of Physical Analysis at the Joint Bioenergy Institute since 2008. Throughout his career, he has been researching protein structures, cellular and tissue structures using advanced electron microscopy techniques. The late William E. Brown was professor of biological sciences at Carnegie Mellon University. From 1993 to 2000, he served as department head. Dr. Brown received his doctorate in biochemistry in the laboratory of Finn Wold at the University of Minnesota and completed a postdoctoral fellowship in biophysics in the laboratory of Fred Richards at Yale University.