Calix[4]arene based α-aminophosphonates: Novel carriers for zwitterionic amino acids transport

“…Combined hydrogen bond donors and acceptors, such as α-aminophosphonate groups held by the calix [4]arene molecular platform allow the binding of hydrophilic amino acid zwitter ions with a selectivity order His > Phe, Tyr, Typ, which can slightly be influenced by the substituent in para-position [130,131].…”

Calixarene-Based Molecules for Cation Recognition

“…Combined hydrogen bond donors and acceptors, such as α-aminophosphonate groups held by the calix [4]arene molecular platform allow the binding of hydrophilic amino acid zwitter ions with a selectivity order His > Phe, Tyr, Typ, which can slightly be influenced by the substituent in para-position [130,131].…”

Calixarene-Based Molecules for Cation Recognition

“…Such calix[n]arenes have been demonstrated to form host-guest complexes with amino acids and other biomolecules and knowledge gained from these investigations informs the pharmaceutical applications [46][47][48][49]. Sulfonated calix[n]arenes are attractive for applications in drug delivery because they are highly soluble in water and readily form host-guest complexes with hydrophobic molecules in aqueous media.…”

Simple Calix[n]arenes and Calix[4]resorcinarenes as Drug Solubilizing Agents

“…[4,5], which play an important role in biochemical processes. Calixarenes can also mimic natural enzyme action [6] and serve as lipophilic containers for the transport of a bioactive guest through cell membranes [7]. One of the most important routes to the synthesis of new bioactive compounds consists of functionalization of the calixarene skeleton with fragments of natural or artificial biologically active compounds [8][9][10][11].…”

Calix[4]arenes bearing α‐amino‐ or α‐hydroxyphosphonic acid fragments at the upper rim