2021
DOI: 10.1039/d0ra08837d
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The F19W mutation reduces the binding affinity of the transmembrane Aβ11–40 trimer to the membrane bilayer

Abstract: Dominant conformations of F19W 3Aβ11–40 immersed in transmembrane DPPC lipid bilayer submerged in aqueous solution.

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Cited by 2 publications
(1 citation statement)
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“…They found that van der Waals interactions are the principal driving force for the binding between the trimer and lipid membrane, resulting in the penetration of the trimer in the bilayers. On the other hand, A21G [ 71 ] and F19W [ 72 ] mutations in the trimer decrease the presence of ASP23-LYS28 salt bridge, which leads to a destabilization of the trimer within the DPPC membranes. These mutations of Aβ 11-40 trimers implied a lower aggregation tendency and reduced stability within the membrane compared to wild-type truncated trimer.…”
Section: Why Does Aβ Peptide Perturb Membrane Integrity?mentioning
confidence: 99%
“…They found that van der Waals interactions are the principal driving force for the binding between the trimer and lipid membrane, resulting in the penetration of the trimer in the bilayers. On the other hand, A21G [ 71 ] and F19W [ 72 ] mutations in the trimer decrease the presence of ASP23-LYS28 salt bridge, which leads to a destabilization of the trimer within the DPPC membranes. These mutations of Aβ 11-40 trimers implied a lower aggregation tendency and reduced stability within the membrane compared to wild-type truncated trimer.…”
Section: Why Does Aβ Peptide Perturb Membrane Integrity?mentioning
confidence: 99%