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Auramine-O as a fluorescence marker for the detection of amyloid fibrils
Nadav Amdursky
*
,
Dan Huppert
*
Corresponding author for this work
School of Chemistry
Weizmann Institute of Science
Research output
:
Contribution to journal
›
Article
›
peer-review
34
Scopus citations
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Keyphrases
Amyloid Fibrils
100%
Fluorescent Markers
100%
Auramine O
100%
Thioflavin T
66%
Absorption Peak
50%
Emission Peak
33%
Peak Position
33%
Two-mode
16%
Bound States
16%
Excited-state Proton Transfer
16%
Photoacid
16%
Unbound States
16%
Fibril Formation
16%
Emissive
16%
Excited States
16%
Peak Shift
16%
Dimethylamino
16%
Proton Transfer Mechanism
16%
Emission Band
16%
Spectroscopic Characteristics
16%
Electronic Wave Functions
16%
Charge Transfer States
16%
Free Rotation
16%
Band Position
16%
Locally Excited State
16%
Isosbestic Point
16%
Red-shifting
16%
Chemistry
Amyloid Fibril
100%
Auramine O
100%
% Inhibition
33%
Excited State
33%
Red
16%
Wave Function
16%
Proton Transfer
16%
Emission Peak
16%
Blue
16%
Transfer Process
16%
Bound State
16%
Excited Electronic State
16%
Charge Transfer State
16%