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The dye SYPRO orange binds to amylin amyloid fibrils but not pre‐fibrillar intermediates
Author(s) -
Wong Amy G.,
Raleigh Daniel P.
Publication year - 2016
Publication title -
protein science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.353
H-Index - 175
eISSN - 1469-896X
pISSN - 0961-8368
DOI - 10.1002/pro.2992
Subject(s) - thioflavin , amylin , chemistry , amyloid (mycology) , amyloid disease , amyloidosis , congo red , fibril , biochemistry , biophysics , islet , alzheimer's disease , amyloid fibril , pathology , biology , amyloid β , medicine , endocrinology , diabetes mellitus , inorganic chemistry , disease , organic chemistry , adsorption
Amyloid deposition underlies a broad range of diseases including multiple neurodegenerative diseases, systemic amyloidosis and type‐2 diabetes. Amyloid sensitive dyes, particularly thioflavin‐T, are widely used to detect ex‐vivo amyloid deposits, to monitor amyloid formation in vitro and to follow the kinetics of amyloid self‐assembly. We show that the dye SYPRO‐orange binds to amyloid fibrils formed by human amylin, the polypeptide responsible for islet amyloid formation in type‐2 diabetes. No fluorescence enhancement is observed in the presence of pre‐fibrillar species or in the presence of non‐amyloidogenic rat amylin. The kinetics of human amylin amyloid formation can be monitored by SYPRO‐orange fluorescence and match the time course determined with thioflavin‐T assays. Thus, SYPRO‐orange offers an alternative to thioflavin‐T assays of amylin amyloid formation. The implications for the interpretation of SYPRO‐orange‐based assays of protein stability and protein‐ligand interactions are discussed.