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Natural Selection on the Phase-Separation Properties of FUS during 160 My of Mammalian Evolution

Pouria Dasmeh, Andreas Wagner

2020Molecular Biology and Evolution39 citationsDOIOpen Access PDF

Abstract

Protein phase separation can help explain the formation of many nonmembranous organelles. However, we know little about its ability to change in evolution. Here we studied the evolution of the mammalian RNA-binding protein Fused in Sarcoma (FUS), a protein whose prion-like domain (PLD) contributes to the formation of stress granules through liquid-liquid phase separation. Although the PLD evolves three times as rapidly as the remainder of FUS, it harbors absolutely conserved tyrosine residues that are crucial for phase separation. Ancestral reconstruction shows that the phosphorylation sites within the PLD are subject to stabilizing selection. They toggle among a small number of amino acid states. One exception to this pattern is primates, where the number of such phosphosites has increased through positive selection. In addition, we find frequent glutamine to proline changes that help maintain the unstructured state of FUS that is necessary for phase separation. Our work provides evidence that natural selection has stabilized the liquid forming potential of FUS and minimized the propensity of cytotoxic liquid-to-solid phase transitions during 160 My of mammalian evolution.

Topics & Concepts

BiologyNatural selectionSelection (genetic algorithm)Evolutionary biologySeparation (statistics)Natural (archaeology)PaleontologyArtificial intelligenceStatisticsComputer scienceMathematicsRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms
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