Protein Information

ID 1584
Name CHCH
Synonyms CHCH; CHURC 1; CHURC1; Chch; Churchill domain containing 1; Churchill protein; My015; Chches…

Compound Information

ID 730
Name OCH
CAS 2,3,4,4,5,5,6,6-octachloro-2-cyclohexen-1-one

Reference

PubMed Abstract RScore(About this table)
16913692 Tsuzuki S, Honda K, Uchimaru T, Mikami M, Fujii A: Magnitude and directionality of the interaction energy of the aliphatic CH/pi interaction: significant difference from hydrogen bond. J Phys Chem A. 2006 Aug 24;110(33):10163-8.
The CCSD (T) level interaction energies of CH/pi complexes at the basis set limit were estimated. The estimated interaction energies of the benzene complexes with CH (4), CH (3) CH (3), CH (2) CH (2), CHCH, CH (3) NH (2), CH (3) OH, CH (3) OCH (3), CH (3) F, CH (3) Cl, CH (3) ClNH (2), CH (3) ClOH, CH (2) Cl (2), CH (2) FCl, CH (2) F (2), CHCl (3), and CH (3) F (3) are -1.45, -1.82, -2.06, -2.83, -1.94, -1.98, -2.06, -2.31, -2.99, -3.57, -3.71, -4.54, -3.88, -3.22, -5.64, and -4.18 kcal/mol, respectively. Dispersion is the major source of attraction, even if substituents are attached to the carbon atom of the C-H bond. The dispersion interaction between benzene and chlorine atoms, which is not the CH/pi interaction, is the cause of the very large interaction energy of the CHCl (3) complex. Activated CH/pi interaction (acetylene and substituted methanes with two or three electron-withdrawing groups) is not very weak. The nature of the activated CH/pi interaction may be similar to the hydrogen bond. On the other hand, the nature of other typical (nonactivated) CH/pi interactions is completely different from that of the hydrogen bond. The typical CH/pi interaction is significantly weaker than the hydrogen bond. Dispersion interaction is mainly responsible for the attraction in the CH/pi interaction, whereas electrostatic interaction is the major source of attraction in the hydrogen bond. The orientation dependence of the interaction energy of the typical CH/pi interaction energy is very small, whereas the hydrogen bond has strong directionality. The weak directionality suggests that the hydrogen atom of the interacting C-H bond is not essential for the attraction and that the typical CH/pi interaction does not play critical roles in determining the molecular orientation in molecular assemblies.
1(0,0,0,1)