Cooperative cellular phenotypes are universal across multicellular life. Division of labor, regulated proliferation, and controlled cell death are essential in the maintenance of a multicellular body. Breakdowns in these cooperative phenotypes are foundational in understanding the initiation and progression of neoplastic diseases, such as cancer. Cooperative cellular phenotypes are straightforward to characterize in extant species but the selective pressures that drove their emergence at the transition(s) to multicellularity have yet to be fully characterized. Here we seek to understand how a dynamic environment shaped the emergence of two mechanisms of regulated cell survival: apoptosis and senescence. We developed an agent-based model to test the time to extinction or stability in each of these phenotypes across three levels of stochastic environments.
Details
- Modeling the Evolution of Senescence & Apoptosis in the Emergence of Multicellularity
- Danesh, Dafna (Author)
- Maley, Carlo (Thesis director)
- Aktipis, Athena (Committee member)
- Compton, Zachary (Committee member)
- Barrett, The Honors College (Contributor)
- School of Life Sciences (Contributor)