2020
Functional characterization of a novel SLC40A1 Arg88Ile mutation in a kindred with familial iron overload treated by phlebotomy
Womack J, Sukumaran A, Li X, Lozovatsky L, Gallagher PG, Seid JE, Finberg KE. Functional characterization of a novel SLC40A1 Arg88Ile mutation in a kindred with familial iron overload treated by phlebotomy. Blood Cells Molecules And Diseases 2020, 87: 102532. PMID: 33385755, PMCID: PMC8272917, DOI: 10.1016/j.bcmd.2020.102532.Peer-Reviewed Original ResearchMeSH KeywordsCation Transport ProteinsHumansIron OverloadMaleMiddle AgedModels, MolecularPhlebotomyPoint Mutation
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
2010
A Comprehensive Model of the Spectrin Divalent Tetramer Binding Region Deduced Using Homology Modeling and Chemical Cross-linking of a Mini-spectrin [S] *
Li D, Harper SL, Tang HY, Maksimova Y, Gallagher PG, Speicher DW. A Comprehensive Model of the Spectrin Divalent Tetramer Binding Region Deduced Using Homology Modeling and Chemical Cross-linking of a Mini-spectrin [S] *. Journal Of Biological Chemistry 2010, 285: 29535-29545. PMID: 20610390, PMCID: PMC2937985, DOI: 10.1074/jbc.m110.145573.Peer-Reviewed Original ResearchConceptsHelix faceRed cell membrane stabilityHomology modelingNon-homologous tailsCell membrane stabilityC-terminal tailWild-type bindingMedium-resolution structureSubtle conformational changesTetramer complexSpectrin tetramer formationChemical Cross-LinkingMembrane skeletonRecombinant domainsTetramer formation
2004
Mutation of a highly conserved isoleucine disrupts hydrophobic interactions in the αβ spectrin self-association binding site
Gallagher PG, Zhang Z, Morrow JS, Forget BG. Mutation of a highly conserved isoleucine disrupts hydrophobic interactions in the αβ spectrin self-association binding site. Laboratory Investigation 2004, 84: 229-234. PMID: 14661034, DOI: 10.1038/labinvest.3700029.Peer-Reviewed Original ResearchConceptsBinding sitesAlpha-spectrin mutationsEvolutionary conservationSpectrin functionSpectrin repeatsTriple helical modelAlpha-spectrinGenetic studiesHydrophobic isoleucineHydrophobic interactionsLow-expression alleleMolecular modelingExpression alleleSpectrinFunctional defectsTriple helixMutationsHelical modelIsoleucineErythrocyte membranesDrosophilaClinical phenotypeNeonatal hemolytic anemiaRepeatsHelix
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 disruptionSpectrin Oligomerization is Cooperatively Coupled to Membrane Assembly: A Linkage Targeted by Many Hereditary Hemolytic Anemias?
Giorgi M, Cianci C, Gallagher P, Morrow J. Spectrin Oligomerization is Cooperatively Coupled to Membrane Assembly: A Linkage Targeted by Many Hereditary Hemolytic Anemias? Experimental And Molecular Pathology 2001, 70: 215-230. PMID: 11418000, DOI: 10.1006/exmp.2001.2377.Peer-Reviewed Original Research
1997
Mutation of a highly conserved residue of betaI spectrin associated with fatal and near-fatal neonatal hemolytic anemia.
Gallagher PG, Petruzzi MJ, Weed SA, Zhang Z, Marchesi SL, Mohandas N, Morrow JS, Forget BG. Mutation of a highly conserved residue of betaI spectrin associated with fatal and near-fatal neonatal hemolytic anemia. Journal Of Clinical Investigation 1997, 99: 267-277. PMID: 9005995, PMCID: PMC507794, DOI: 10.1172/jci119155.Peer-Reviewed Original ResearchMeSH KeywordsAnemia, Hemolytic, CongenitalArginineBase SequenceConserved SequenceErythrocyte MembraneFemaleHomozygoteHumansHydrops FetalisLaosLeucineMaleMembrane ProteinsModels, MolecularMuscle, SkeletalPedigreePeptide MappingPoint MutationPolymerase Chain ReactionProtein ConformationSequence Analysis, DNASpectrinConceptsImportance of leucineEvolutionary conservationSpectrin functionSpectrin repeatsBeta spectrinBetaI spectrinTriple helical modelGenetic studiesSpectrinMutationsSkeletal muscleMolecular modelingTriple helixNormal functionHelical modelLeucineErythrocyte membranesDrosophilaHydrophobic interactionsNeonatal hemolytic anemiaRepeatsHelixConservationResiduesMembrane
1992
A common type of the spectrin alpha I 46-50a-kD peptide abnormality in hereditary elliptocytosis and pyropoikilocytosis is associated with a mutation distant from the proteolytic cleavage site. Evidence for the functional importance of the triple helical model of spectrin.
Gallagher PG, Tse WT, Coetzer T, Lecomte MC, Garbarz M, Zarkowsky HS, Baruchel A, Ballas SK, Dhermy D, Palek J. A common type of the spectrin alpha I 46-50a-kD peptide abnormality in hereditary elliptocytosis and pyropoikilocytosis is associated with a mutation distant from the proteolytic cleavage site. Evidence for the functional importance of the triple helical model of spectrin. Journal Of Clinical Investigation 1992, 89: 892-898. PMID: 1541680, PMCID: PMC442935, DOI: 10.1172/jci115669.Peer-Reviewed Original ResearchConceptsProteolytic cleavage sitesAlpha-spectrin chainTriple helical modelCleavage siteHelix 2Helix-breaking proline substitutionsHereditary elliptocytosisAlpha iAlpha-spectrin geneAlpha-helical structureAmino-terminal sideHereditary pyropoikilocytosisHelical modelErythrocyte membrane proteinsLimited tryptic digestionMembrane proteinsSpectrin repeatsDNA sequencesSpectrin chainsHelix 3Position 207Leucine residuesFunctional importanceProline substitutionPoint mutations