2001
Computation and mutagenesis suggest a right‐handed structure for the synaptobrevin transmembrane dimer
Fleming K, Engelman D. Computation and mutagenesis suggest a right‐handed structure for the synaptobrevin transmembrane dimer. Proteins Structure Function And Bioinformatics 2001, 45: 313-317. PMID: 11746678, DOI: 10.1002/prot.1151.Peer-Reviewed Original ResearchConceptsTransmembrane dimerSingle transmembrane segmentBiological membrane fusionProtein-protein interactionsRight-handed structureInterhelical hydrogen bondsSequence-specific mannerTransmembrane segmentsDimerization motifThree-dimensional structureMutagenesis studiesMembrane fusionSuccessful structure predictionSide-chain atomsStructure predictionSpecific mannerKey playersComputational searchDimersSynaptobrevinMutagenesisComputational methodsAssociation thermodynamicsMotifGlycophorin
1994
A dimerization motif for transmembrane α–helices
Lemmon M, Treutlein H, Adams P, Brünger A, Engelman D. A dimerization motif for transmembrane α–helices. Nature Structural & Molecular Biology 1994, 1: 157-163. PMID: 7656033, DOI: 10.1038/nsb0394-157.Peer-Reviewed Original ResearchConceptsTransmembrane α-helicesHydrophobic transmembrane α-helicesSpecific helix-helix interactionsΑ-helixIntegral membrane proteinsHelix-helix interactionsHelix-helix interfaceDimerization motifSpecific dimerizationMembrane proteinsHelix associationFunctional analysisAmino acidsSuch motifsLipid bilayersMotifParticular motifsFoldingDimerizationSuch interactionsComplex membranesProteinOligomerizationVariety of systemsInteraction