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Van der Waals forces and hydrogen bonds J. Israelichvili, „Intermolecular and Surface Forces”, Academic Press, London, 1997.

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Presentation on theme: "Van der Waals forces and hydrogen bonds J. Israelichvili, „Intermolecular and Surface Forces”, Academic Press, London, 1997."— Presentation transcript:

1 Van der Waals forces and hydrogen bonds J. Israelichvili, „Intermolecular and Surface Forces”, Academic Press, London, 1997

2 Types of „weak” interactions

3 Types of „weak” interactions (continued)

4

5 Interactions between backbone peptide groups jj ii pipi pjpj j i CiCi C  i+1 CjCj C  j+1

6 C C N C O H insignificant

7 PMF captures the orientation dependence of backbone hydrogen bonding interactions Liwo et al., Prot. Sci., 2, 1697 (1993); J. Phys. Chem. B 108, 9421 (2004) PMF Approx.

8 Dispersion forces

9 QM (London, 1930) Different atoms

10 Repulsive potentials

11

12 What are hydrogen bonds? X, Y are usualy (99% or so) electronegative atoms  is usually close to 180 o d(X …Y) < r VDW (X)+r VDW (Y); d(H…Y)<r VDW (H)+r VDW (Y) d(X-H) is greater than in the free X-H molecule  + H and  - Y are pronounced wrt non-interacting molecules H X Y  ++ --

13 r VDW (O)=1.52 A r VDW (H)=1.09 A

14 Types of hydrogen bonds Weak (  H<1 kcal/mol) usually involve non- polar or weakly polar groups. Moderately strong (1<  H<20 kcal/mol) involve polar groups. Strong (  H>20 kcal/mol) involve ions.

15 Examples weak moderately strong strong

16 H-bonds in proteins backbone-backbone backbone-sidechain sidechain-sidechain backbone-solvent sidechain-solvent

17 Examples

18 Hydrogen bonding and proton transfer X H Y X-H…Y X - …H-Y + polarity

19 Symmetric hydrogen bonds Kojić-Prodić & Molcanov, Acta Chim. Slov., 2008, 55, 692-708

20 H-bonding energy surfaces are reflected in structural structures H.B. Burgi, J.D. Dunitz, Acc. Chem. Res., 1983, 16, 153-161

21 Energy decomposition E=E SX +E POL +E CT +E DISP E=E ES +E XC +E POL +E CT Singh and Kollman, J. Chem. Phys., 1985, 83, 4033-4040

22 Korochowiec et al., J. Chem. Phys., 2000, 112, 1623-1632

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