In this work, we report the asymmetric synthesis and characterization of an artificial amino acid based on triazolyl-thione L-alanine, which was modified with a thiophenyl-substituted moiety, as well as in vitro studies of its nucleic acid-binding ability. We found, by dynamic light scattering studies, that the synthetic amino acid was able to form supramolecular aggregates having a hydrodynamic diameter higher than 200 nm. Furthermore, we demonstrated, by UV and CD experiments, that the heteroaromatic amino acid, whose enzymatic stability was demonstrated by HPLC analysis also after 24 h of incubation in human serum, was able to bind a RNA complex, which is a feature of biomedical interest in view of innovative antiviral strategies based on modulation of RNA-RNA molecular recognition.
Thiophenyl-substituted triazolyl-thione l-alanine: asymmetric synthesis, aggregation and biological properties / Saghyan, Ashot S.; Simonyan, Hayarpi M.; Petrosyan, Satenik G.; Geolchanyan, Arpine V.; Roviello, Giovanni N.; Musumeci, Domenica; Roviello, Valentina. - In: AMINO ACIDS. - ISSN 0939-4451. - 46:10(2014), pp. 2325-2332. [10.1007/s00726-014-1782-3]
Thiophenyl-substituted triazolyl-thione l-alanine: asymmetric synthesis, aggregation and biological properties
MUSUMECI, DOMENICA;Valentina Roviello
2014
Abstract
In this work, we report the asymmetric synthesis and characterization of an artificial amino acid based on triazolyl-thione L-alanine, which was modified with a thiophenyl-substituted moiety, as well as in vitro studies of its nucleic acid-binding ability. We found, by dynamic light scattering studies, that the synthetic amino acid was able to form supramolecular aggregates having a hydrodynamic diameter higher than 200 nm. Furthermore, we demonstrated, by UV and CD experiments, that the heteroaromatic amino acid, whose enzymatic stability was demonstrated by HPLC analysis also after 24 h of incubation in human serum, was able to bind a RNA complex, which is a feature of biomedical interest in view of innovative antiviral strategies based on modulation of RNA-RNA molecular recognition.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
