Journal of the American Chemical Society, Vol.121, No.6, 1192-1201, 1999
A selective receptor for arginine derivatives in aqueous media. Energetic consequences of salt bridges that are highly exposed to water
Quantitative measures of salt-bridge-type interactions in a highly exposed aqueous environment have been obtained by modifying the well-studied cyclophane platform 1 to include carboxylates in close proximity to bound, cationic guests, producing hosts 2 and 3. Many guests show significantly enhanced binding to 2 and 3, but cations of the RNMe3+ type show little or no enhancement. We propose that the latter observations result from the fact that RNMe3+ compounds have very diffuse positive charges. Guests that show enhanced binding have focused regions of large, positive electrostatic potential. The highly charged 3 is able to bind very polar, very well-solvated guests, including a series of arginine-based dipeptides. Neutral, water-soluble host 4 was prepared and found to show a decreased affinity for cationic guests. We propose a novel induced dipole mechanism to rationalize these results.
Keywords:SURFACE ELECTROSTATIC INTERACTIONS;CATION-PI INTERACTIONS;ACETYLCHOLINE-BINDING;MOLECULAR RECOGNITION;HYDROPHOBICBINDING;PROTEIN STABILITY;ION-PAIRS;CHEMISTRY;BARNASE;HOSTS