2010
DOI: 10.1073/pnas.1002867107
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Protein-induced photophysical changes to the amyloid indicator dye thioflavin T

Abstract: The small molecule thioflavin T (ThT) is a defining probe for the identification and mechanistic study of amyloid fiber formation. As such, ThT is fundamental to investigations of serious diseases such as Alzheimer's disease, Parkinson disease, and type II diabetes. For each disease, a different protein undergoes conformational conversion to a β-sheet rich fiber. The fluorescence of ThT exhibits an increase in quantum yield upon binding these fibers. Despite its widespread use, the structural basis for binding… Show more

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Cited by 291 publications
(280 citation statements)
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“…Ion Specificity and Sup35NM Aggregation Kinetics-We first examined the effects of salt type and salt concentration on Sup35NM amyloid formation in vitro via a fluorescence assay using the amyloid-binding dye thioflavin T (49). A typical aggregation profile is presented in Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Ion Specificity and Sup35NM Aggregation Kinetics-We first examined the effects of salt type and salt concentration on Sup35NM amyloid formation in vitro via a fluorescence assay using the amyloid-binding dye thioflavin T (49). A typical aggregation profile is presented in Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Experiments with human IAPP are limited by its conversion to amyloid fibers. Fiber formation can be monitored kinetically using unlabeled liposomes and introduction of thioflavin T (ThT), a fluorescent indicator of amyloid conversion (20). At 4 μM protein and 200 μM lipid, human IAPP converts to amyloid with a midpoint, t 50 , of 3;600 s AE 900 s (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…For these molecules the increase in fluorescence is assumed to originate from the rigid and/or hydrophobic environment at the binding site of the aggregates [30][31][32]. Although these compounds have been studied extensively, the fluorescence mechanism and the origin of the fluorescence increase upon binding are still controversial [31,[33][34][35]. For the DPPcompounds one may assume that a rigid environment at the binding sites of the fibrillar aggregates [30] could reduce the intrinsic flexibility of the compounds and with that could slow down internal conversion processes.…”
Section: Absorption and Emission Propertiesmentioning
confidence: 99%