Aminonaphthalimide-based dipodal imidazolium/triazole receptors for fluorescent sensing of nucleoside polyphosphates

Aminonaphthalimide-based dipodal imidazolium/triazole receptors for fluorescent sensing of nucleoside polyphosphates

Novel aminonaphthalimide-based two-armed imidazolium/triazole receptors were synthesized to compare their fluorescent responses towards nucleoside polyphosphates with those of three-armed podands described recently. Our two constitutional isomer ligands comprised one imidazolium and an additional 1,...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Vol. 182; pp. 280 - 287
Main Authors: Czirok, János B., Bojtár, Márton, Hessz, Dóra, Baranyai, Péter, Drahos, László, Kubinyi, Miklós, Bitter, István
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-2013
Subjects:
adenosine triphosphate
aqueous solutions
ATP, GTP, UTP sensing
binding sites
Click chemistry
fluorescence
Fluorescent sensor
guanosine triphosphate
isomers
light scattering
Naphthalimide fluorophore
Nucleoside polyphosphates
nucleosides
polyphosphates
receptors
solvents
spectroscopy
stoichiometry
triazoles
uridine triphosphate
ATP, GTP, UTP sensing
Fluorescent sensor
Naphthalimide fluorophore
DMSO
Nucleoside polyphosphates
MeCN
TLC
Click chemistry
Eq
DMF
DCM
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Summary:Novel aminonaphthalimide-based two-armed imidazolium/triazole receptors were synthesized to compare their fluorescent responses towards nucleoside polyphosphates with those of three-armed podands described recently. Our two constitutional isomer ligands comprised one imidazolium and an additional 1,2,3-triazole moiety in the binding site exhibited ‘turn-on’ fluorescence enhancements in HEPES buffer (pH 7.5) upon addition of ATP, GTP and UTP. The sensitivity of sensing was found to strongly depend on the order of heterocyclic subunits in the arms, when the imidazolium group was displaced to the vicinity of the naphthalimide marker significantly higher sensitivity was achieved. In aqueous solutions, however, the association constants were considered to be unreliable due to the occurrence of some colloidal precipitate (unvisible to the naked eye) that could be detected only by light scattering. The spectroscopic measurements repeated in HEPES–acetonitrile mixed solvent affording stable solutions gave association constants log K=6.3–6.5 for ATP, GTP and UTP alike (1:2 ligand–triphosphate stoichiometry) retaining the selectivity over di-and monophosphates.
Bibliography:http://dx.doi.org/10.1016/j.snb.2013.02.046
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2013.02.046