Novel phosphorylated calixarenes for the recognition off-elements

The use of a novel chiral functional monomer system in molecular imprinting protocols is described. The monomer, dibenzyl (2R,3R)-O-monoacryloyl tartrate, possesses a hydroxyl moiety which can be used to direct template-functional monomer interactions during molecular imprinting polymerization. This

## Abstract Hyperphosphorylation at tyrosine is commonly observed in tumor proteomes and, hence, specific phosphoproteins or phosphopeptides could serve as markers useful for cancer diagnostics and therapeutics. The analysis of such targets is, however, a challenging task, because of their commonly

## Abstract A calix[4]arene derivative containing uracil, 5‐(uracil‐__N__^1^‐acetamido)‐25,26,27,28‐tetrahy droxycalix[4]‐arene (UC), was designed and synthesized. The interaction with nucleotides and bases has also been studied by ESI‐MS and __π__‐__A__ isotherms. The results of ESI‐MS showed that

In order to examine the molecular recognition effect of a three-dimensional hydrophobic cavity, seven β-cyclodextrin derivatives (1-7) bearing hydrophobic substituents on the primary side, and three structurally related calixarene derivatives (8-10) were synthesized and used as coating materials for