The calix[4]arene scaffold, blocked in the cone conformation through alkylation with long alkyl chains, and decorated at the upper rim with four guanidine or arginine units, effectively catalyzes the cleavage of the phosphodiester bond of DNA and RNA model compounds in water. An exhaustive kinetic investigation unequivocally points to the existence of spontaneous aggregation phenomena, driven by hydrophobic effect, occurring at different critical concentrations that depend on the identity of the compound. A pronounced superiority of the assembled structures compared with the monomers in solution was observed. Moreover, the catalytically active units, clustered on the macrocyclic tetrafunctional scaffold, were proved to efficiently cooperate in the catalytic mechanism and result in improved reaction rates compared to those of the monofunctional model compounds. The kinetic analysis is also integrated and corroborated with further experiments based on fluorescence spectroscopy and light scattering. The advantage of the supramolecular assemblies based on tetrafunctional calixarenes leads to believe that the active units can cooperate not only intramolecularly but also intermolecularly. The molecules in the aggregates can probably mold, flex and rearrange but, at the same time, keep an ordered structure that favors phosphodiester bond cleavage. This dynamic preorganization can allow the catalytic units to reach a better fitting with the substrates and perform a superior catalytic activity.

Lisi, D., Vezzoni, C.a., Casnati, A., Sansone, F., Salvio, R. (2023). Intra- and intermolecular cooperativity in the catalytic activity of phosphodiester cleavage by self-assembled systems based on guanidinylated calix[4]arenes. CHEMISTRY, 29(12) [10.1002/chem.202203213].

Intra- and intermolecular cooperativity in the catalytic activity of phosphodiester cleavage by self-assembled systems based on guanidinylated calix[4]arenes

Salvio, Riccardo
2023-11-16

Abstract

The calix[4]arene scaffold, blocked in the cone conformation through alkylation with long alkyl chains, and decorated at the upper rim with four guanidine or arginine units, effectively catalyzes the cleavage of the phosphodiester bond of DNA and RNA model compounds in water. An exhaustive kinetic investigation unequivocally points to the existence of spontaneous aggregation phenomena, driven by hydrophobic effect, occurring at different critical concentrations that depend on the identity of the compound. A pronounced superiority of the assembled structures compared with the monomers in solution was observed. Moreover, the catalytically active units, clustered on the macrocyclic tetrafunctional scaffold, were proved to efficiently cooperate in the catalytic mechanism and result in improved reaction rates compared to those of the monofunctional model compounds. The kinetic analysis is also integrated and corroborated with further experiments based on fluorescence spectroscopy and light scattering. The advantage of the supramolecular assemblies based on tetrafunctional calixarenes leads to believe that the active units can cooperate not only intramolecularly but also intermolecularly. The molecules in the aggregates can probably mold, flex and rearrange but, at the same time, keep an ordered structure that favors phosphodiester bond cleavage. This dynamic preorganization can allow the catalytic units to reach a better fitting with the substrates and perform a superior catalytic activity.
16-nov-2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore CHIM/06 - CHIMICA ORGANICA
English
artificial phosphodiesterases; calixarenes; enzyme mimics; self-assembling; supramolecular catalysis
Lisi, D., Vezzoni, C.a., Casnati, A., Sansone, F., Salvio, R. (2023). Intra- and intermolecular cooperativity in the catalytic activity of phosphodiester cleavage by self-assembled systems based on guanidinylated calix[4]arenes. CHEMISTRY, 29(12) [10.1002/chem.202203213].
Lisi, D; Vezzoni, Ca; Casnati, A; Sansone, F; Salvio, R
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/315444
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