β-Structure in Human Amylin and 2 Designer β-Peptides: CD and NMR Spectroscopic Comparisons Suggest Soluble β-Oligomers and the Absence of Significant Populations of β-Strand Dimers

Intensity variation for the positive far UV CD band was observed for three ′β-sheet′ peptides. In 6% HFIP, an amyloidogenic species (human pancreatic amylin) displays, on standing, an extremely intense 192-nm band which diminishes upon physical agitation. A concurrently formed Tyr sidechain band at...

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Veröffentlicht in:	Biochemical and biophysical research communications 1994-11, Vol.204 (3), p.1088-1095
Hauptverfasser:	Cort, J., Liu, Z.H., Lee, G., Harris, S.M., Prickett, K.S., Gaeta, L.S.L., Andersen, N.H.
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container_title	Biochemical and biophysical research communications
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creator	Cort, J. Liu, Z.H. Lee, G. Harris, S.M. Prickett, K.S. Gaeta, L.S.L. Andersen, N.H.
description	Intensity variation for the positive far UV CD band was observed for three ′β-sheet′ peptides. In 6% HFIP, an amyloidogenic species (human pancreatic amylin) displays, on standing, an extremely intense 192-nm band which diminishes upon physical agitation. A concurrently formed Tyr sidechain band at 274nm disappears completely with agitation, linking the enhancement of the 192-nm band to the highly ordered stacking of β-sheets. NMR studies indicate that the β-states of the three peptides are oligomeric, not β dimers. A membrane-forming EAK peptide displays NMR peaks due to the low concentration of ′random coil′ monomers present in slow equilibrium with β-oligomers; solutions of a more hydrophobic ELKA peptide, which displays an intense 195-nm band, contain only oligomeric species. NMR studies at 25% HFIP revealed the structural requirements for inhibition of β-oligomer formation.
doi_str_mv	10.1006/bbrc.1994.2574
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title	β-Structure in Human Amylin and 2 Designer β-Peptides: CD and NMR Spectroscopic Comparisons Suggest Soluble β-Oligomers and the Absence of Significant Populations of β-Strand Dimers
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