De Novo Design of Ln(III) Coiled Coils for Imaging Applications | Zendy

Matthew R. Berwick | Zendy; David J. Lewis | Zendy; Andrew W. Jones | Zendy; Rosemary A. Parslow | Zendy; Timothy R. Dafforn | Zendy; Helen J. Cooper | Zendy; John Wilkie | Zendy; Zoe Pikramenou | Zendy; Melanie M. Britton | Zendy; Anna F. A. Peacock | Zendy

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De Novo Design of Ln(III) Coiled Coils for Imaging Applications

Author(s) -

Matthew R. Berwick,

David J. Lewis,

Andrew W. Jones,

Rosemary A. Parslow,

Timothy R. Dafforn,

Helen J. Cooper,

John Wilkie,

Zoe Pikramenou,

Melanie M. Britton,

Anna F. A. Peacock

Publication year - 2014

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/ja408741h

Subject(s) - chemistry , terbium , lanthanide , coiled coil , gadolinium , molecule , luminescence , sequence (biology) , ion , crystallography , biochemistry , optoelectronics , organic chemistry , physics

A new peptide sequence (MB1) has been designed which, in the presence of a trivalent lanthanide ion, has been programmed to self-assemble to form a three stranded metallo-coiled coil, Ln(III)(MB1)3. The binding site has been incorporated into the hydrophobic core using natural amino acids, restricting water access to the lanthanide. The resulting terbium coiled coil displays luminescent properties consistent with a lack of first coordination sphere water molecules. Despite this the gadolinium coiled coil, the first to be reported, displays promising magnetic resonance contrast capabilities.

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