Abstract
How can a self-organized cellular function evolve, adapt to perturbations, and acquire new sub-functions? To make progress in answering these basic questions of evolutionary cell biology, we analyze, as a concrete example, the cell polarity machinery of Saccharomyces cerevisiae. This cellular module exhibits an intriguing resilience: it remains operational under genetic perturbations and recovers quickly and reproducibly from the deletion of one of its key components. Using a combination of modeling, conceptual theory, and experiments, we propose that multiple, redundant self-organization mechanisms coexist within the protein network underlying cell polarization and are responsible for the module’s resilience and adaptability. Based on our mechanistic understanding of polarity establishment, we hypothesize that scaffold proteins, by introducing new connections in the existing network, can increase the redundancy of mechanisms and thus increase the evolvability of other network components. Moreover, our work gives a perspective on how a complex, redundant cellular module might have evolved from a more rudimental ancestral form.
Original language | English |
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Article number | 6504 |
Number of pages | 14 |
Journal | Nature Communications |
Volume | 14 |
Issue number | 1 |
DOIs | |
Publication status | Published - 2023 |
Bibliographical note
DOI 10.1038/s41467-023-42928-6 author correction the author name Leila Iñigo de la Cruz was incorrectly written as Leila M. Iñigo de la Cruz. The original article has been corrected.Fingerprint
Dive into the research topics of 'Redundancy and the role of protein copy numbers in the cell polarization machinery of budding yeast'. Together they form a unique fingerprint.Datasets
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Python notebook to generate Figure 3 Panel C from: "Adaptability and evolution of the cell polarization machinery in budding yeast"
Iñigo de la Cruz, L. M. (Creator), TU Delft - 4TU.ResearchData, 16 Sept 2020
DOI: 10.4121/12962405, https://doi.org/10.1101/2020.09.09.290510
Dataset/Software: Software