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A synthetic host-guest system achieves avidin-biotin affinity by overcoming enthalpy-entropy compensation.


ABSTRACT: The molecular host cucurbit[7]uril forms an extremely stable inclusion complex with the dicationic ferrocene derivative bis(trimethylammoniomethyl)ferrocene in aqueous solution. The equilibrium association constant for this host-guest pair is 3 x 10(15) M(-1) (K(d) = 3 x 10(-16) M), equivalent to that exhibited by the avidin-biotin pair. Although purely synthetic systems with larger association constants have been reported, the present one is unique because it does not rely on polyvalency. Instead, it achieves its extreme affinity by overcoming the compensatory enthalpy-entropy relationship usually observed in supramolecular complexes. Its disproportionately low entropic cost is traced to extensive host desolvation and to the rigidity of both the host and the guest.

SUBMITTER: Rekharsky MV 

PROVIDER: S-EPMC2410071 | biostudies-other | 2007 Dec

REPOSITORIES: biostudies-other

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A synthetic host-guest system achieves avidin-biotin affinity by overcoming enthalpy-entropy compensation.

Rekharsky Mikhail V MV   Mori Tadashi T   Yang Cheng C   Ko Young Ho YH   Selvapalam N N   Kim Hyunuk H   Sobransingh David D   Kaifer Angel E AE   Liu Simin S   Isaacs Lyle L   Chen Wei W   Moghaddam Sarvin S   Gilson Michael K MK   Kim Kimoon K   Inoue Yoshihisa Y  

Proceedings of the National Academy of Sciences of the United States of America 20071219 52


The molecular host cucurbit[7]uril forms an extremely stable inclusion complex with the dicationic ferrocene derivative bis(trimethylammoniomethyl)ferrocene in aqueous solution. The equilibrium association constant for this host-guest pair is 3 x 10(15) M(-1) (K(d) = 3 x 10(-16) M), equivalent to that exhibited by the avidin-biotin pair. Although purely synthetic systems with larger association constants have been reported, the present one is unique because it does not rely on polyvalency. Inste  ...[more]

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