2004
Hereditary elliptocytosis: spectrin and protein 4.1R
Gallagher PG. Hereditary elliptocytosis: spectrin and protein 4.1R. Seminars In Hematology 2004, 41: 142-164. PMID: 15071791, DOI: 10.1053/j.seminhematol.2004.01.003.Peer-Reviewed Original Research
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
1995
Recurrent fatal hydrops fetalis associated with a nucleotide substitution in the erythrocyte beta-spectrin gene.
Gallagher PG, Weed SA, Tse WT, Benoit L, Morrow JS, Marchesi SL, Mohandas N, Forget BG. Recurrent fatal hydrops fetalis associated with a nucleotide substitution in the erythrocyte beta-spectrin gene. Journal Of Clinical Investigation 1995, 95: 1174-1182. PMID: 7883966, PMCID: PMC441455, DOI: 10.1172/jci117766.Peer-Reviewed Original ResearchConceptsBeta-spectrin geneErythrocyte membrane mechanical stabilityPrincipal structural proteinMembrane mechanical stabilitySpectrin functionBeta spectrinErythrocyte membranesNucleotide substitutionsStudy of erythrocytesStructural proteinsAlpha-spectrinGenetic studiesMolecular defectsPoint mutationsSpectrinHydrops fetalisRecombinant peptideMutationsGenesSevere Coomb's negative hemolytic anemiaThird-trimester fetal loss
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