2014
Probing large conformational rearrangements in wild-type and mutant spectrin using structural mass spectrometry
Sriswasdi S, Harper SL, Tang HY, Gallagher PG, Speicher DW. Probing large conformational rearrangements in wild-type and mutant spectrin using structural mass spectrometry. Proceedings Of The National Academy Of Sciences Of The United States Of America 2014, 111: 1801-1806. PMID: 24453214, PMCID: PMC3918770, DOI: 10.1073/pnas.1317620111.Peer-Reviewed Original ResearchConceptsMass spectrometryConformational changesStructural mass spectrometryLarge conformational rearrangementsCell membraneMembrane integrityMass spectrometry characterizationRed cell spectrinUnidentified mechanistic insightCell membrane integrityProtein complexesMacromolecular complexesDiverse functionsCell shapeBiological processesFlexible proteinsConformational rearrangementsDimer-tetramer equilibriumRed cell membraneOpen dimersCell typesΑ-spectrinKey mechanistic roleTetramerization siteBiophysical data
2013
The common hereditary elliptocytosis-associated α-spectrin L260P mutation perturbs erythrocyte membranes by stabilizing spectrin in the closed dimer conformation
Harper SL, Sriswasdi S, Tang HY, Gaetani M, Gallagher PG, Speicher DW. The common hereditary elliptocytosis-associated α-spectrin L260P mutation perturbs erythrocyte membranes by stabilizing spectrin in the closed dimer conformation. Blood 2013, 122: 3045-3053. PMID: 23974198, PMCID: PMC3811177, DOI: 10.1182/blood-2013-02-487702.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceBinding SitesCross-Linking ReagentsElliptocytosis, HereditaryErythrocyte MembraneHumansModels, MolecularMolecular Sequence DataMutationProtein BindingProtein MultimerizationProtein StabilityProtein Structure, SecondaryProtein Structure, TertiaryRecombinant ProteinsSpectrinConceptsHereditary elliptocytosisMembrane destabilizationLarge conformational rearrangementsGel filtration analysisMembrane proteinsTetramer assemblyHereditary pyropoikilocytosisBiophysical analysisCommon hereditary elliptocytosisConformational rearrangementsDimer conformationHelical contentTetramerization siteFiltration analysisSpectrin tetramersNovel mechanismUnknown mechanismMutationsBinding assaysSpectrinChemical crosslinkingErythrocyte shapeTetramerErythrocyte membranesMembrane
2001
Dynamic molecular modeling of pathogenic mutations in the spectrin self-association domain
Zhang Z, Weed S, Gallagher P, Morrow J. Dynamic molecular modeling of pathogenic mutations in the spectrin self-association domain. Blood 2001, 98: 1645-1653. PMID: 11535493, DOI: 10.1182/blood.v98.6.1645.Peer-Reviewed Original ResearchConceptsSelf-association domainPoint mutationsHuman sequenceDrosophila alpha-spectrinDynamic molecular modelingHuman erythrocyte spectrinCytoskeletal functionSpecific point mutationsConservative substitutionsPrimary sequenceConformational rearrangementsAlpha-spectrinHelical regionHydrophilic residuesAmino acidsMutationsSpectrinSalt bridgeErythrocyte spectrinStructural consequencesPathogenic mutationsRepeat unitsMolecular modelingSequenceStructural disruption