Zn-salophen complexes are a promising class of fluorescent chemosensors for nucleotides and nucleic acids. We have investigated, by means of IRMPD spectroscopy experiments and quantum chemical calculations, the structure of the host-guest complexes formed by two efficient Zn-salophen receptors and dihydrogen phosphate or adenosine 5'-monophosphate (AMP) anions. In the host-guest complexes the phosphate group is bound with a Zn. O(phosphate) bond. In addition, a hydrogen bond can be formed between the PO. H group and one of the oxygen atoms of the salophen structure. The complexes with AMP anions are endowed with a hydrogen bonded coordination motif together with a weaker π⋯π interaction. It is thus confirmed that the marked changes of the spectroscopic emission properties of Zn-salophen when complexed with AMP can be associated with the existence of π⋯π stacking interactions between the salophen aromatic rings and those of the adenosine nucleobase. © 2017 Elsevier Inc.
Adenosine monophosphate recognition by zinc-salophen complexes: IRMPD spectroscopy and quantum modeling study / Ciavardini, Alessandra; DALLA CORT, Antonella; Fornarini, Simonetta; Scuderi, Debora; Giardini, Anna; Forte, Gianpiero; Bodo, Enrico; Piccirillo, Susanna. - In: JOURNAL OF MOLECULAR SPECTROSCOPY. - ISSN 0022-2852. - STAMPA. - 335:(2017), pp. 108-116. [10.1016/j.jms.2017.02.014]
Adenosine monophosphate recognition by zinc-salophen complexes: IRMPD spectroscopy and quantum modeling study
CIAVARDINI, ALESSANDRA;DALLA CORT, Antonella;FORNARINI, Simonetta;SCUDERI, Debora;GIARDINI, Anna;FORTE, GIANPIERO;BODO, Enrico;PICCIRILLO, SUSANNA
2017
Abstract
Zn-salophen complexes are a promising class of fluorescent chemosensors for nucleotides and nucleic acids. We have investigated, by means of IRMPD spectroscopy experiments and quantum chemical calculations, the structure of the host-guest complexes formed by two efficient Zn-salophen receptors and dihydrogen phosphate or adenosine 5'-monophosphate (AMP) anions. In the host-guest complexes the phosphate group is bound with a Zn. O(phosphate) bond. In addition, a hydrogen bond can be formed between the PO. H group and one of the oxygen atoms of the salophen structure. The complexes with AMP anions are endowed with a hydrogen bonded coordination motif together with a weaker π⋯π interaction. It is thus confirmed that the marked changes of the spectroscopic emission properties of Zn-salophen when complexed with AMP can be associated with the existence of π⋯π stacking interactions between the salophen aromatic rings and those of the adenosine nucleobase. © 2017 Elsevier Inc.| File | Dimensione | Formato | |
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