0000000000287482

AUTHOR

M Kehoe

showing 3 related works from this author

Molecular architecture of a toxin pore: a 15-residue sequence lines the transmembrane channel of staphylococcal alpha-toxin.

1996

Staphylococcus aureus alpha-toxin is a hydrophilic polypeptide of 293 amino acids that produces heptameric transmembrane pores. During assembly, the formation of a pre-pore precedes membrane permeabilization; the latter is linked to a conformational change in the oligomer. Here, 41 single-cysteine replacement toxin mutants were thiol-specifically labelled with the polarity-sensitive fluorescent probe acrylodan. After oligomerization on membranes, only the mutants with acrylodan attached to residues in the sequence 118-140 exhibited a marked blue shift in the fluorescence emission maximum, indicative of movement of the fluorophore to a hydrophobic environment. Within this region, two functio…

Conformational changeStaphylococcus aureusProtein ConformationMembrane lipidsBacterial ToxinsMolecular Sequence DataBiologyGeneral Biochemistry Genetics and Molecular BiologyCell membraneHemolysin ProteinsProtein structure2-NaphthylaminemedicinePoint MutationAmino Acid SequenceCysteineMolecular BiologyPeptide sequenceFluorescent Dyeschemistry.chemical_classificationBinding SitesGeneral Immunology and MicrobiologyMolecular StructureGeneral NeuroscienceCell MembraneTransmembrane proteinAmino acidmedicine.anatomical_structureMembraneSpectrometry FluorescenceBiochemistrychemistryLiposomesBiophysicsMutagenesis Site-DirectedResearch ArticleThe EMBO journal
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Histidine residues near the N terminus of staphylococcal alpha-toxin as reporters of regions that are critical for oligomerization and pore formation.

1994

Chemical modification of histidine residues in staphylococcal alpha-toxin leads to loss of functional activity. Site-directed mutants of the toxin in which each of the four histidine residues was replaced by several amino acids were therefore produced. The mutant proteins were purified and characterized. Exchange of H-259 or H-144 was sometimes tolerated without reduction in hemolytic activity. These histidine residues are thus not essential for toxin function. Exchange of H-35 and H-48, however, had marked effects. H-35 mutant toxins bound with high affinity to rabbit erythrocytes but displayed faulty oligomerization and were unable to form pores. H-48 mutant toxins also had severely impai…

ImmunologyMutantBacterial ToxinsBiologyHemolysin Proteinsmedicine.disease_causeMicrobiologyHemolysisHemolysin ProteinsStructure-Activity RelationshipmedicineStructure–activity relationshipAnimalsHistidineHistidinechemistry.chemical_classificationToxinErythrocyte Membranebiology.organism_classificationAmino acidN-terminusInfectious DiseaseschemistryBiochemistryMutagenesis Site-DirectedParasitologyRabbitsBacteriaResearch Article
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Staphylococcus aureus alpha-toxin. Production of functionally intact, site-specifically modifiable protein by introduction of cysteine at positions 6…

1993

Staphylococcal alpha-toxin, the prototype of an oligomerizing, pore-forming cytotoxin, is sensitive to biochemical modifications and cannot be labeled with biotin or fluorescein under preservation of its biological activity. In this study, we have used site-directed mutagenesis to introduce cysteine residues at positions 69, 130, and 186. Each mutant was fully and rapidly reactive with several sulfhydryl-specific reagents, indicating superficial location. Coupling of SH-groups with fluorescein-maleimide or biotin-maleimide was tolerated without loss of hemolytic activity at position 130, and the formed hexamers were visible on target cells by fluorescence microscopy and could be detected on…

MutagenesisBiological activityCell BiologyBiochemistrychemistry.chemical_compoundBiotinchemistryBiochemistryFluorescence microscopeSite-directed mutagenesisMolecular BiologyElectroblottingStaphylococcus aureus alpha toxinCysteineJournal of Biological Chemistry
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