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

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

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 10¹⁵ M⁻¹ (Kd = 3 x 10⁻¹⁶ M), equivalent to that exhib...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2007-12, Vol.104 (52), p.20737-20742
Hauptverfasser: Rekharsky, Mikhail V, Mori, Tadashi, Yang, Cheng, Ko, Young Ho, Selvapalam, N, Kim, Hyunuk, Sobransingh, David, Kaifer, Angel E, Liu, Simin, Isaacs, Lyle, Chen, Wei, Moghaddam, Sarvin, Gilson, Michael K, Kim, Kimoon, Inoue, Yoshihisa
Format: Artikel
Sprache:eng
Schlagworte:
Aqueous chemistry
Aqueous solutions
Avidin - chemistry
Binding sites
Biological Sciences
Biotin - chemistry
Biotinylation
Bridged-Ring Compounds - chemistry
Calorimetry - methods
Chemistry - methods
Crystal structure
Crystallography, X-Ray - methods
Enthalpy
Entropy
Ferrocenes
Free energy
Hydrogen Bonding
Imidazoles - chemistry
Kinetics
Mathematical minima
Models, Molecular
Molecular Conformation
Molecular Structure
Molecules
Protons
Streptavidin
Thermodynamics
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Zusammenfassung: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 10¹⁵ M⁻¹ (Kd = 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.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0706407105