2016
DOI: 10.1021/acs.jpclett.6b01586
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The Culprit Is in the Cave: The Core Sites Explain the Binding Profiles of Amyloid-Specific Tracers

Abstract: The design of molecular probes and tracer molecules with specificity toward amyloid beta (Aβ) fibrils is of paramount importance for the selective diagnosis of Alzheimer's disease. This requires a detailed understanding of the binding sites in amyloid targets, their number, and their binding mechanism for various tracer molecules. We adopt an integrated approach including molecular docking, molecular dynamics, and generalized Born-based free energy calculations to investigate site-specific interactions of diff… Show more

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Cited by 38 publications
(76 citation statements)
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“…In our previous studies we stressed the importance of the NMR conformation 8 of 2BEG where the phenyl alanine core have the most favourable interaction site. [24][25][26] The results from the residue-wise break up of the MM/GBSA contribution substantiate our earlier findings: In the case of florbetaben, in addition to the phenylalanine and valine, the leucine residues make a significant contribution towards a favourable interaction. We observe from the plot that for Iowa-AZD4694 there is a stronger interaction of the phenyl alanine and valine residues compared to the native system which may explain the exceptional nature of this mutation in that it has more favourable interaction energy than the native system.…”
Section: Residuewise Contributions To the Bindingsupporting
confidence: 87%
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“…In our previous studies we stressed the importance of the NMR conformation 8 of 2BEG where the phenyl alanine core have the most favourable interaction site. [24][25][26] The results from the residue-wise break up of the MM/GBSA contribution substantiate our earlier findings: In the case of florbetaben, in addition to the phenylalanine and valine, the leucine residues make a significant contribution towards a favourable interaction. We observe from the plot that for Iowa-AZD4694 there is a stronger interaction of the phenyl alanine and valine residues compared to the native system which may explain the exceptional nature of this mutation in that it has more favourable interaction energy than the native system.…”
Section: Residuewise Contributions To the Bindingsupporting
confidence: 87%
“…[24][25][26] We therefore cross checked our result of these ambiguous systems using MD. The results for 17 nanosecond (ns) run are given in Table 2.…”
Section: Dockingmentioning
confidence: 99%
“…The potency ranking of different cores with diverse electronic substitutions can only be achieved with QM calculation within systems displaying such complicated electronic variations participating in key interactions with the protein. The S1 site of Aβ 42 , the most amyloidogenic form of the peptide, was found to possess the highest binding affinity among the most possible sites for the styrylbenzoxazole derivatives from the QM calculation, which agrees with computational methods run in parallel and other experimental works . Binding free energy calculations (ie, an average over the ensemble binding energies) is another way to find the binding affinity .…”
Section: Roles Of Computational Approaches For Targeting Secretasessupporting
confidence: 71%
“…The S1 site of Aβ 42 , the most amyloidogenic form of the peptide, was found to possess the highest binding affinity among the most possible sites for the styrylbenzoxazole derivatives from the QM calculation, 246 which agrees with computational methods run in parallel and other experimental works. 247,248 Binding free energy calculations (ie, an average over the ensemble binding energies) is another way to find the binding affinity. 249 Particularly, free energy perturbation (FEP) calculations was used in the design of novel spiroaminodihydropyrroles, 250 and acyl guanidine with a modified scaffold, 251 for inhibitors binding the P3 pocket of BACE1.…”
Section: Quantum Mechanical Calculationmentioning
confidence: 99%
“…Amyloid fibrils having sizes from microns to nano have been reported by various authors. [4,14,[30][31][32][35][36][37][38][39][40] Figure 1C shows the BSA fibrillation at different time point. After 4 hours, the molecules tried assembling in order and later, they aggregated together and forming the fibrils.…”
Section: Effects Of Ss-plg On Inhibition Of Protein Fibrillationmentioning
confidence: 99%