2021
Cellular Sticking Can Strongly Reduce Complex Binding by Speeding Dissociation
Davis C, Gruebele M. Cellular Sticking Can Strongly Reduce Complex Binding by Speeding Dissociation. The Journal Of Physical Chemistry B 2021, 125: 3815-3823. PMID: 33826329, DOI: 10.1021/acs.jpcb.1c00950.Peer-Reviewed Original ResearchConceptsSpliceosomal protein U1APotential binding partnerMajor cellular effectsProtein U1ABinding partnerU1 snRNACellular environmentNonspecific interactionsFörster resonance energy transferProper bindingCellular componentsResonance energy transferU1ALive cellsLarge hydrophobic surface areaMacromolecular crowdingCellular effectsHydrophobic surface areaOS cellsModel systemComplex bindingHigh binding affinityWeak nonspecific interactionsBinding affinitiesCells
2020
Cytoskeletal Drugs Modulate Off-Target Protein Folding Landscapes Inside Cells
Davis CM, Gruebele M. Cytoskeletal Drugs Modulate Off-Target Protein Folding Landscapes Inside Cells. Biochemistry 2020, 59: 2650-2659. PMID: 32567840, DOI: 10.1021/acs.biochem.0c00299.Peer-Reviewed Original ResearchConceptsCytoskeletal drugsPhosphoglycerate kinaseActin filamentsDynamic cytoskeletal networksEffects of cytoskeletonProtein energy landscapesOff-target proteinsOpposite responseCytoskeletal networkProtein stabilityCellular milieuProtein-like sequencesVariable major protein-like sequenceOverall cell volumeCytoskeletonCell migrationEnergy landscapeMacromolecular crowdingMacromolecular crowdersProteinNonspecific surface interactionsTarget effectsMicrotubulesCytoplasmCells
2018
Cell Volume Controls Protein Stability and Compactness of the Unfolded State
Wang Y, Sukenik S, Davis CM, Gruebele M. Cell Volume Controls Protein Stability and Compactness of the Unfolded State. The Journal Of Physical Chemistry B 2018, 122: 11762-11770. PMID: 30289261, DOI: 10.1021/acs.jpcb.8b08216.Peer-Reviewed Original Research