Thermodynamic analysis of receptors based on guanidinium/boronic acid groups for the complexation of carboxylates, alpha-hydroxycarboxylates, and diols: driving force for binding and cooperativity.

The thermodynamics of guanidinium and boronic acid interactions with carboxylates, alpha-hydroxycarboxylates, and diols were studied by determination of the binding constants of a variety of different guests to four different hosts (7-10). Each host contains a different combination of guanidinium groups and boronic acids. The guests included molecules with carboxylate and/or diol moieties, such as citrate, tartrate, and fructose, among others.

Energetics of phosphate binding to ammonium and guanidinium containing metallo-receptors in water.

The design and synthesis of receptors containing a Cu(II) binding site with appended ammonium groups (1) and guanidinium groups (2), along with thermodynamics analyses of anion binding, are reported. Both receptors 1 and 2 show high affinities (10(4) M(-1)) and selectivities for phosphate over other anions in 98:2 water:methanol at biological pH. The binding of the host-guest pairs is proposed to proceed through ion-pairing interactions between the charged functional groups on both the host and the guest.

Studies into the thermodynamic origin of negative cooperativity in ion-pairing molecular recognition.

The association of synthetic receptors to target guests often proceeds through the cooperative action of multiple binding forces. An investigation into the thermodynamic origin of cooperativity in ion-pairing host-guest binding in water is described. The binding affinities of 1,2,3,4-butanetetracarboxylate, tricarballate, glutarate, and acetate to a C(3)(v) symmetric metallo-host (1) are characterized in terms of the binding constants (K(a)) and the thermodynamic parameters deltaG degrees, deltaH degrees, and deltaS degrees, as determined by isothermal titration calorimetry (ITC).

Determination of inorganic phosphate in serum and saliva using a synthetic receptor.

[structure: see text] A C(3)(v) symmetric synthetic receptor (1) was employed in an indicator-displacement assay to determine the phosphate concentrations in both horse serum and human saliva at biological pH. The determination of the phosphate concentrations in the serum and saliva using the colorimetric assay were 1.6 and 5.

C3v symmetric receptors show high selectivity and high affinity for phosphate.

The binding of phosphate to tripodal metalloreceptors 1 and 2 is reported. Receptors 1 and 2 are C3v symmetric, designed to complement three sides of a tetrahedron. The receptors derive from tripodal ligands that are preorganized through binding to a central Cu(II) atom.