| Literature DB >> 26048430 |
Dominik Brox1, Peter Comba2, Dirk-Peter Herten3, Esther Kimmle1, Michael Morgen4, Carmen L Rühl4, Arina Rybina1, Holger Stephan5, Golo Storch1, Hubert Wadepohl4.
Abstract
The substitution of tetradentate bispidine ligands with rhodamine and cyanine dye molecules, coupled to an amine donor, forming an amide as potential fifth donor, is described. Bispidines are known to lead to very stable Cu(II) complexes, and the coordination to Cu(II) was expected to efficiently quench the fluorescence of dye molecules. However, at physiological pH the amide is not coordinated, as shown by titration experiments and crystallographic structural data of three possible isomers of these complexes. This may be due to the specific cavity shape of bispidines and the Jahn-Teller lability of the Cu(II) center. While Cu(II) coordination in aqueous solution leads to efficient fluorescence quenching, experiments show that the complex stabilities are not large enough for Cu(II) sensing in biological media, and possibilities are discussed, how this may be achieved by optimized bispidine-dye conjugates.Entities:
Keywords: Amide coordination; Copper selectivity; Fluorescence quenching; Fluorescence sensor; Jahn–Teller distortion
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Year: 2015 PMID: 26048430 DOI: 10.1016/j.jinorgbio.2015.05.009
Source DB: PubMed Journal: J Inorg Biochem ISSN: 0162-0134 Impact factor: 4.155