Abstract
Understanding how developmental systems evolve over time is a key question in stem cell and developmental biology research. However, due to hurdles of existing experimental techniques, our understanding of these systems as a whole remains partial and coarse. In recent years, we have been constructing in-silico models that synthesize experimental knowledge using software engineering tools. Our approach integrates known isolated mechanisms with simplified assumptions where the knowledge is limited. This has proven to be a powerful, yet underutilized, tool to analyze the developmental process. The models provide a means to study development in-silico by altering the model’s specifications, and thereby predict unforeseen phenomena to guide future experimental trials. To date, three organs from diverse evolutionary organisms have been modeled: the mouse pancreas, the C. elegans gonad, and partial rodent brain development. Analysis and execution of the models recapitulated the development of the organs, anticipated known experimental results and gave rise to novel testable predictions. Some of these results had already been validated experimentally. In this paper, I review our efforts in realistic in-silico modeling of stem cell research and developmental biology and discuss achievements and challenges. I envision that in the future, in-silico models as presented in this paper would become a common and useful technique for research in developmental biology and related research fields, particularly regenerative medicine, tissue engineering and cancer therapeutics.
Highlights
Understanding how developmental systems evolve over time is a key question in stem cell and developmental biology research
Challenges in stem cell and developmental biology research Developmental systems consist of a cell population that maintains the proper development, structure and function of multicellular organisms [1,2,3]
In-silico models for stem cell and developmental systems Tools that were originally designed for software engineering purposes provide a means to synthesize experimental information into in-silico models [41]
Summary
Understanding how developmental systems evolve over time is a key question in stem cell and developmental biology research. To realistically understand the entire development of cells in the tissue, there is a need for in-silico models that enable integration of the regulation of sub-systems into a comprehensive multi-scale dynamic model. In-silico models for stem cell and developmental systems Tools that were originally designed for software engineering purposes provide a means to synthesize experimental information into in-silico models [41].
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