2018
Nup159 Weakens Gle1 Binding to Dbp5 But Does Not Accelerate ADP Release
Wong EV, Gray S, Cao W, Montpetit R, Montpetit B, De La Cruz EM. Nup159 Weakens Gle1 Binding to Dbp5 But Does Not Accelerate ADP Release. Journal Of Molecular Biology 2018, 430: 2080-2095. PMID: 29782832, PMCID: PMC6003625, DOI: 10.1016/j.jmb.2018.05.025.Peer-Reviewed Original ResearchConceptsEssential DEAD-box proteinADP releaseDbp5's ATPase activityDEAD-box proteinsNucleotide exchange factorsDbp5 activityMRNA exportRNA metabolismExchange factorDbp5Cellular processesATPase cyclingNup159Gle1ATP affinityMechanochemical cycleATPase activityADPATP releaseDDX19NTPasesNucleoporinsDetailed characterizationRNARegulatorThe actin filament twist changes abruptly at boundaries between bare and cofilin-decorated segments
Huehn A, Cao W, Elam WA, Liu X, De La Cruz EM, Sindelar CV. The actin filament twist changes abruptly at boundaries between bare and cofilin-decorated segments. Journal Of Biological Chemistry 2018, 293: 5377-5383. PMID: 29463680, PMCID: PMC5900768, DOI: 10.1074/jbc.ac118.001843.Peer-Reviewed Original ResearchConceptsCofilin-decorated segmentsConformational changesCofilin/ADF proteinsActin-remodeling proteinsBind actin filamentsActin filament interactionsCofilin-induced changesEffects of cofilinCooperative conformational changesProtein occupancyADF proteinsCellular processesCell divisionStructure-based methodsCryo-EMActin segmentsIntracellular transportActin filamentsFilament twistCooperative bindingCofilinTwist changesActinFluorophore labelingSubunits
2008
Effects of Solution Crowding on Actin Polymerization Reveal the Energetic Basis for Nucleotide-Dependent Filament Stability
Frederick KB, Sept D, De La Cruz EM. Effects of Solution Crowding on Actin Polymerization Reveal the Energetic Basis for Nucleotide-Dependent Filament Stability. Journal Of Molecular Biology 2008, 378: 540-550. PMID: 18374941, PMCID: PMC2424216, DOI: 10.1016/j.jmb.2008.02.022.Peer-Reviewed Original ResearchConceptsADP-actin filamentsFilament stabilityCell structure maintenanceFundamental cellular processesADP-actinADP-F-actinSolution crowdingCellular processesAllosteric regulatorsMolecular basisRegulatory proteinsActin polymerizationATP hydrolysisActin activityNucleotide hydrolysisFilament subunitsEnergetic basisIntracellular conditionsStructure maintenanceSubunit dissociationStability of ATPATPConcentration-dependent mannerStructural differencesForce generationOverview: 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