2024
High-resolution yeast actin structures indicate the molecular mechanism of actin filament stiffening by cations
Xu X, Cao W, Swift M, Pandit N, Huehn A, Sindelar C, De La Cruz E, Hanein D, Volkmann N. High-resolution yeast actin structures indicate the molecular mechanism of actin filament stiffening by cations. Communications Chemistry 2024, 7: 164. PMID: 39079963, PMCID: PMC11289367, DOI: 10.1038/s42004-024-01243-x.Peer-Reviewed Original ResearchActin filamentsVertebrate actinsActin structuresDNase I binding loopActin filament assemblyEukaryotic cell functionStructures of wild-typeNear-atomic resolution structuresPotential binding sitesActin subunitsFilament assemblyRegulatory proteinsDNase IA167ActinAdjacent subunitsRegulatory roleMolecular mechanismsVertebratesWild-typeGlutamic acidCell functionFilamentsSubunitResiduesCryo-EM structures reveal how phosphate release from Arp3 weakens actin filament branches formed by Arp2/3 complex
Chavali S, Chou S, Cao W, Pollard T, De La Cruz E, Sindelar C. Cryo-EM structures reveal how phosphate release from Arp3 weakens actin filament branches formed by Arp2/3 complex. Nature Communications 2024, 15: 2059. PMID: 38448439, PMCID: PMC10918085, DOI: 10.1038/s41467-024-46179-x.Peer-Reviewed Original ResearchConceptsArp2/3 complexActin filamentsCryo-EM structureMother filamentDaughter filamentArp2/3 complex nucleates branched actin filamentsActin filament branchingBranched actin filamentsDissociation of PiADP-PiFilament branchingOrganelle movementADP stateBranch junctionsArp3A-resolutionActinArp2/3ADP-BeFxFilamentsADPPhosphate releaseFilament mechanismArp2OrganellesToxoplasma gondii actin filaments are tuned for rapid disassembly and turnover
Hvorecny K, Sladewski T, De La Cruz E, Kollman J, Heaslip A. Toxoplasma gondii actin filaments are tuned for rapid disassembly and turnover. Nature Communications 2024, 15: 1840. PMID: 38418447, PMCID: PMC10902351, DOI: 10.1038/s41467-024-46111-3.Peer-Reviewed Original ResearchConceptsActin filamentsDynamic properties of actin filamentsProperties of actin filamentsCytoskeletal protein actinFilamentous actin networkSkeletal muscle actinCryo-EM structureIn vitro assemblyOrganelle inheritanceD-loopActin networkNucleotide exchangeLive cell imagingProteins actinSkeletal actinConserved structureEvolutionary changesActinApicomplexan parasitesAssembly contactsIntracellular parasitesMonomer dissociationApicomplexanFilamentsBiophysical properties
2020
Force and phosphate release from Arp2/3 complex promote dissociation of actin filament branches
Pandit NG, Cao W, Bibeau J, Johnson-Chavarria EM, Taylor EW, Pollard TD, De La Cruz EM. Force and phosphate release from Arp2/3 complex promote dissociation of actin filament branches. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 13519-13528. PMID: 32461373, PMCID: PMC7306818, DOI: 10.1073/pnas.1911183117.Peer-Reviewed Original ResearchConceptsActin filament branchesArp2/3 complexMother filamentFilament branchesTotal internal reflection fluorescence microscopyEssential cellular functionsMechanical forcesActin filament networkReflection fluorescence microscopyCellular functionsActin networkCell motilityComplex generatesActin filamentsArp2/3Filament networkFluorescence microscopyState 1Branch junctionsState 2FilamentsComplexesPhosphate releaseMuscle actinADP
2017
Phosphomimetic S3D cofilin binds but only weakly severs actin filaments
Elam WA, Cao W, Kang H, Huehn A, Hocky GM, Prochniewicz E, Schramm AC, Negrón K, Garcia J, Bonello TT, Gunning PW, Thomas DD, Voth GA, Sindelar CV, De La Cruz EM. Phosphomimetic S3D cofilin binds but only weakly severs actin filaments. Journal Of Biological Chemistry 2017, 292: 19565-19579. PMID: 28939776, PMCID: PMC5712599, DOI: 10.1074/jbc.m117.808378.Peer-Reviewed Original ResearchConceptsActin bindingWild-type cofilinActin filament severingHigh cooperativitySubstitution of serineCofilin bindsActin cytoskeletonProtein cofilinCell divisionSer-3Filament severingAtom molecular dynamics simulationsSubunit interactionsN-terminusCofilinBiological processesActin filamentsTime-resolved phosphorescence anisotropyElectron cryomicroscopyRapid remodelingPhosphorylationSeveringFilament mechanical propertiesActin segmentsFilaments
2016
Cations Stiffen Actin Filaments by Adhering a Key Structural Element to Adjacent Subunits
Hocky GM, Baker JL, Bradley MJ, Sinitskiy AV, De La Cruz EM, Voth GA. Cations Stiffen Actin Filaments by Adhering a Key Structural Element to Adjacent Subunits. The Journal Of Physical Chemistry B 2016, 120: 4558-4567. PMID: 27146246, PMCID: PMC4959277, DOI: 10.1021/acs.jpcb.6b02741.Peer-Reviewed Original ResearchConceptsActin filamentsRegulatory proteinsD-loopSite-specific mutagenesisSpecific divalent cationsFilament severingStructural bioinformaticsAdjacent subunitsAccessible conformational spaceSubunit conformationActin subunitsKey structural elementsAmino acidsLarge-scale changesConformational spaceSubunitsFilament mechanical propertiesProteinFilamentsDivalent cationsMagnesium ionsMolecular dynamics simulationsConformationSitesCofilin
2015
Actin Mechanics and Fragmentation*
De La Cruz EM, Gardel ML. Actin Mechanics and Fragmentation*. Journal Of Biological Chemistry 2015, 290: 17137-17144. PMID: 25957404, PMCID: PMC4498053, DOI: 10.1074/jbc.r115.636472.Peer-Reviewed Original Research
2010
Actin filament remodeling by actin depolymerization factor/cofilin
Pfaendtner J, De La Cruz EM, Voth GA. Actin filament remodeling by actin depolymerization factor/cofilin. Proceedings Of The National Academy Of Sciences Of The United States Of America 2010, 107: 7299-7304. PMID: 20368459, PMCID: PMC2867716, DOI: 10.1073/pnas.0911675107.Peer-Reviewed Original ResearchConceptsActin depolymerization factorSubunit interactionsCofilin bindingActin filamentsADF/cofilinFactor/cofilinLong-pitch helixHelix monomersNeighboring subunitMolecular basisSevering proteinHydrophobic loopConformational dynamicsSubdomain 1Subdomain 2Loop movesTriggers reorganizationCofilinFilament flexibilityFilamentsNative filamentsDNaseFilament contactsAtom simulationsBinding
2008
Overview: Actin-Binding Protein Function and Its Relation to Disease Pathology
Krendel M, De La Cruz E. Overview: Actin-Binding Protein Function and Its Relation to Disease Pathology. Protein Reviews 2008, 65-82. DOI: 10.1007/978-0-387-71749-4_5.Peer-Reviewed Original ResearchFundamental cellular processesForm of ATPHydrolysis of ATPActin cytoskeletonProtein functionCellular processesMyosin familyMotor proteinsActin filamentsActin monomersATP moleculesCell membraneDistinct mechanismsPathogenic bacteriaGenerate movementDisease pathologyATPFilamentsForce generationMotilityCytoskeletonOrganellesChemical energyProteinActin
2004
Cofilin Binding to Muscle and Non-muscle Actin Filaments: Isoform-dependent Cooperative Interactions
De La Cruz EM. Cofilin Binding to Muscle and Non-muscle Actin Filaments: Isoform-dependent Cooperative Interactions. Journal Of Molecular Biology 2004, 346: 557-564. PMID: 15670604, DOI: 10.1016/j.jmb.2004.11.065.Peer-Reviewed Original ResearchConceptsActin filamentsConcentration of cofilinActin isoformsFilament severingRegulatory proteinsCooperative free energyActin fluorescencePyrene-actin fluorescenceCofilinFilament bindingHuman cofilinEquilibrium bindingCooperative interactionsIntrinsic affinitySkeletal muscleIsoformsBindingFilamentsSeveringMuscle actinHill coefficientCooperativity modelFilament latticeIsolated siteProtein
2001
Actin-Binding Proteins: An Overview
De La Cruz E. Actin-Binding Proteins: An Overview. Results And Problems In Cell Differentiation 2001, 32: 123-134. PMID: 11131827, DOI: 10.1007/978-3-540-46560-7_9.Peer-Reviewed Original Research