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Excited state dynamics of protein

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31.7 kcal/mole more stable then lowest energy thymine duplex ... The second structure is 24.1 kcal/mole more stable, but 31.7 kcal less stable ... – PowerPoint PPT presentation

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Title: Excited state dynamics of protein


1
Excited state dynamics of protein
Special seminar on protein dynamics Harvard
University, February 2004
  • H.G. Bohr, Quantum Protein (QuP) Center,
    Technical University of Denmark,
  • Kgs. Lyngby, Denmark

2
Photolyase
  • Photolyase structure function
  • Structure
  • Function
  • FADH ? FADH-
  • Coenzyme energy transfer
  • Electron transfer from FADH- to the T-T dimer
  • T-T dimer splitting
  • Projects ...

3
Structure of Photolyase from E. Coli Park et al.
Science 1995, 2681866, Carell et al. Curr. Op.
Chem. Biol. 2001, 5491
4
(No Transcript)
5
FADH ? FADH- Aubert et al. Nature, 2000, 405586
Time-resolved absorption spectroscopy has
demonstrated
6
Coenzyme energy transfer Epple Carell J. Am.
Chem. Soc., 1999, 1217318, Carell et al. Curr.
Op. Chem. Biol., 2001, 5491
  • FADH MTHF distance 20 Ã…
  • Radioationless energy transfer in 200 ps
    (Förster
  • theory)
  • Experimental model studies Long coenzyme-
  • coenzyme distance favors T-T dimer splitting,
    even
  • though it disfavors energy transfer possibly
    due to
  • electron transfer to MTHF instead of to the T-T
    dimer.

7
Electron transfer from FADH- to the T-T
dimer Antony et al. J. Am. Chem. Soc. 2000,
1221057, Sanders Wiest J. Am. Chem. Soc. 1999,
1215127
  • Binding of the T-T dimer to photolyase Docking
    and MD studies 3-10 Ã… between FADH-
  • and T-T-dimer
  • Electron transfer rate in agreement with
    experimental data (Extended Hückel theory)
  • U-bend FADH- essential, because electron
    transfer occurs via the adenine moiety

8
T-T dimer splitting Durbeej Eriksson, J. Am.
Chem. Soc. 2000, 12210126
  • Thermodynamics of energy transfer and reaction,
    TDDFT study
  • Earlier work at HF, MP2 or semiempirical level
    with modest basis sets is deemed unreliable
  • Only 2.3 kcal/mol barrier for the T-T dimer bond
    breaking

9
New Work done at QuP
  • T-T dimer binding
  • Coenzyme energy transfer
  • Reaction mechanism
  • (dimer splitting) including the enzyme
  • pathway
  • Reaction path in excited state
  • Neutral dimer splitting more exothermic by 20
    kcal/mol than anion radical dimer splitting (DFT
    calculation). Larger barrier ?
  • Orbital symmetry rules The neutral dimer
    splitting may occur via excited state

10
DFT calculations at QuP/DKFZ
  • B3LYP calculation for two thymine monomer
    interaction
  • B3LYP calculation for thymine duplex
  • B3LYP calculation for DNA (dithymine)
  • B3LYP calculation of DNA (photo denatured
    dithymine)

11
B3LYP calculation for two thymine monomer
interaction
  • B3LYP/6-31G energy -897.216847 Hartrees
  • 31.7 kcal/mole more stable then lowest energy
    thymine duplex

12
B3LYP calculation for two thymine monomer
interaction
  • B3LYP/6-31G energy -897.216846 Hartrees
  • 31.7 kcal/mole more stable then lowest energy
    thymine duplex
  • Degenerate with previous structure

13
thymine duplex
  • B3LYP/6-31G energy -987.127896 Hartrees
  • B3LYP/6-31G energy -987.166315 Hartrees
  • The second structure is 24.1 kcal/mole more
    stable, but 31.7 kcal less stable than thymine
    dimer

14
B3LYP calculation for DNA (dithymine dimer)
  • Without the other base pairs and correct
    treatment of dispersion, the thymine monomers
    appear to repell each other
  • A larger model system appears to be necessary

15
B3LYP calculation for DNA (dithymine duplex)
  • One of the possible structures for damaged DNA
    due to radiation damage
  • A larger model system does not appear to be
    necessary here

16
Acknowledgment of collaborators and funding
  • Holger B. Nielsen, NBI, Cophenhagen, DK
  • F. Bari Malik, SIU, Carbondale, IL USA
  • K.J. Jalkanen, QuP, Kgs. Lyngby, DK
  • S. Suhai, DKFZ, Heidelberg, DE
  • Danish National Research Foundation
  • DKFZ, Heidelberg, DE for access to HP and IBM
    computational resources
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