Accession Number : ADA466765


Title :   International Research and Development in Systems Biology


Descriptive Note : Final rept.


Corporate Author : WORLD TECHNOLOGY EVALUATION CENTER INC BALTIMORE MD


Personal Author(s) : Cassman, Marvin ; Arkin, Adam ; Doyle, Frank ; Katagiri, Fumiaki ; Lauffenburger, Douglas ; Stokes, Cynthia


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a466765.pdf


Report Date : Oct 2005


Pagination or Media Count : 185


Abstract : The current textbook image of biological processes is that of a static model of loosely linked, highly detailed, molecular devices. However, every biologist knows that dynamic processes drive biology. Systems biology is defined for the purpose of this study as the understanding of biological network behaviors, and in particular their dynamic aspects, which requires the utilization of mathematical modeling tightly linked to experiment. This involves a variety of approaches, such as the identification and validation of networks, the creation of appropriate datasets, the development of tools for data acquisition and software development, and the use of modeling and simulation software in close linkage with experiment. All of these are discussed in this report. Of course, the definition becomes ambiguous at the margins. But at the core is the focus on networks, which makes it clear that the goal is to understand the operation of the systems, rather than the component parts. The panel concluded that the U.S. is currently ahead of the rest of the world in systems biology, largely because of earlier investment over the past five to seven years by funding organizations and research institutions. This is reflected in a large number of active research groups, and educational programs, and a diverse and growing funding base. However, there is evidence of rapid development outside the U.S., much of it begun in the last two to three years. It must be stressed that the attempt to incorporate the details of molecular events obtained over the past half century into a dynamic picture of network behavior in biological systems is only just beginning, in the U.S. and elsewhere. In particular, progress in the core activity of systems biology modeling tied to experiment is still limited. Progress would be facilitated by strong international collaborations in training, research, and infrastructure. Overall, the picture is of an active field in early stages of explosive growth.


Descriptors :   *BIOLOGY , *NETWORKS , MATHEMATICAL MODELS , SOFTWARE TOOLS , DATA ACQUISITION , COMPUTERIZED SIMULATION


Subject Categories : Biology


Distribution Statement : APPROVED FOR PUBLIC RELEASE