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Structural biases in disordered proteins are prevalent in the cell.

David MosesKarina GuadalupeFeng YuEduardo FloresAnthony R PerezRalph McAnellyNora M ShamoonGagandeep KaurEstefania Cuevas-ZepedaAndrea D MergErik W MartinAlex S HolehouseShahar Sukenik
Published in: Nature structural & molecular biology (2024)
Intrinsically disordered proteins and protein regions (IDPs) are prevalent in all proteomes and are essential to cellular function. Unlike folded proteins, IDPs exist in an ensemble of dissimilar conformations. Despite this structural plasticity, intramolecular interactions create sequence-specific structural biases that determine an IDP ensemble's three-dimensional shape. Such structural biases can be key to IDP function and are often measured in vitro, but whether those biases are preserved inside the cell is unclear. Here we show that structural biases in IDP ensembles found in vitro are recapitulated inside human-derived cells. We further reveal that structural biases can change in a sequence-dependent manner due to changes in the intracellular milieu, subcellular localization, and intramolecular interactions with tethered well-folded domains. We propose that the structural sensitivity of IDP ensembles can be leveraged for biological function, can be the underlying cause of IDP-driven pathology or can be used to design disorder-based biosensors and actuators.
Keyphrases
  • single cell
  • endothelial cells
  • cell therapy
  • stem cells
  • induced apoptosis
  • cell death
  • oxidative stress
  • genome wide
  • signaling pathway
  • small molecule
  • convolutional neural network
  • binding protein