Reminder: CBM/ELETTRA seminar 25th May - h 15.00 - BASOVIZZA
Maria Teresa
mariateresa.turello at cbm.fvg.it
Thu May 24 11:54:38 CEST 2007
Dear Sirs,
you are kindly invited at CBM/ELETTRA seminar:
DNA interaction, recognition and aggregation. Love at first sight
prof. Alexei A. Kornyshev
Department of Chemistry, Imperial College London, UK
Moderator: prof. Giacinto Scoles, ELETTRA/CBM
Friday, 25th May 2007, 3 pm
Conference Hall T Building
AREA Science Park
BASOVIZZA
Trieste
How can meters of genetic material be packed in mammalian sperm and
phage heads?
Why do some ions condense DNA, while others do not? Why does DNA
change its structure in
dense aggregates? These and other questions, including a mechanism
for snap-shot genegene
recognition in recombination of homologous genes suggested by
Kornyshev and Leikin
are addressed within an ongoing research program of a
‘transatlantic’ team at the Departments
of Chemistry and Molecular Biosciences of Imperial College London,
and the Physical
Biochemistry Group of the Institute of Child Health and Human
Development of the National
Institute of Health (Bethesda, MD, USA).
This project is based on Kornyshev-Leikin theory of interaction of
helical
macromolecules in solutions. In line with a wealth of experimental
data (such as the observed
poly- and meso-morphism of DNA assemblies, and the measured decay
range of repulsive
forces between various helical macromolecules) this theory was
recently extended to the
statistical mechanics of DNA columnar and cholesteric phases, and DNA
mechanics - mapped
on forefront models of nonlinear physics (A.Cherstvy, A.Kornyshev,
D.J.Lee, S.Leikin
A.Wynveen).
One of the recent results was the experimental proof of azimuthal
correlations between
DNA in hydrated aggregates (A.A.Kornyshev, D.J.Lee, S.Leikin,
A.Wynveen, S.Zimmerman),
predicted by the theory. The latest experiments of Imperial-NIH team
(G. Baldwin, N.Brooks,
A.Goldar, S.Leikin, R.Robson, J.Seddon) has recently approved
existence of the physical
mechanism of homology recognition in protein free environment,
predicted by KL in 2001. The
effect of homology recognition is what presumably warrants against
errors in homologous
recombination of genes – the process responsible for evolution and
genetic diversity, as well
DNA repair. Thus understanding the recognition mechanism may result
in the future in
understanding how to avoid such errors that themselves are
responsible for a number of
genetically determined diseases, such as cancer and Atzheimer’s on
one hand, or aging on the
other hand.
This talk will introduce the audience to the principles of the
theory, present some of its
main results, and review the latest experimental findings. An
interested listener is referred to a
detailed article which will be published in the June issue of Reviews
of Modern Physics:
A.A.Kornyshev, D.J.Lee, S.Leikin, and A.Wynveen: Structure and
interactions of biological
helices, and the original publications, listed below.
Theory of interaction between helical molecules
A.A.Kornyshev and S.Leikin, J.Chem.Phys. 1997,107, 3656.
Symmetry laws for interaction between helical macromolecules.
A.A.Kornyshev and S.Leikin, Biophys.J., 1998, 75, 2513.
Helical symmetry and electrostatic interaction of macromolecules in
dense aggregates.
An impetus for DNA poly- and meso-morphism.
A.A.Kornyshev and S.Leikin, Proc.Natl.Acad.Sci.USA. 1998, 95, 13579.
Electrostatic zipper motif for DNA aggregation.
A.A.Kornyshev and S.Leikin, Phys.Rev.Lett., 1999, 82, 4138.
A twist in chiral interaction between biological helices.
A.A.Kornyshev and S.Leikin, Phys.Rev.Lett. 2000, 84, 2537.
Electrostatic interaction between long, rigid helical macromolecules
at all interaxial angles
A.A.Kornyshev and S.Leikin, Phys.Rev.E, 2000, 62, 2576.
Sequence recognition in pairing of DNA duplexes.
A.A.Kornyshev and S.Leikin, Phys.Rev.Lett. 2001, 86, 3666. DNA need
not unzip.-
http://focus.aps.org/v7/st19.html
Chiral electrostatic interactions and cholesteric liquid crystals of
DNA.
A.A.Kornyshev, S.Leikin, and S.Malinin, European Phys.J. E (Soft
Matter) 2002, 7, 83.
Phase behavior of columnar DNA assemblies.
H.M.Harreis, A.A.Kornyshev, C.N.Likos, H.Loewen, and G.Sutmann,
Phys.Rev.Lett. 2002, 89, art.#18303.
Temperature-dependent DNA condensation triggered by rearrangement of
adsorbed cations.
A.G. Cherstvy, A.A.Kornyshev, S.Leikin, J.Phys.Chem.2002,106, 13362.
Torsional Deformation of Double Helix in Interaction and aggregation
of DNA.
A.G.Cherstvy, A.A.Kornyshev, and S.Leikin, J.Phys.Chem.B, 2004, 108,
6508.
Nonlinear effects in torsional adjustment of interacting DNA.
A.Kornyshev and A.Wynveen,. Phys.Rev.E, 2004, 69, #041905, 1-14.
DNA-DNA interaction beyond the ground state.
D.J.Lee, A.Wynveen, and A.A.Kornyshev, Phys. Rev. E, 2004, 70,
#051913, 1-12
Statistical mechanics of DNA assemblies.
A.Wynveen, D.J.Lee, and A.A.Kornyshev, Eur.Phys.J. E, 2005, 16, 303.
Torsional fluctuations in columnar DNA assemblies.
D.J.Lee and A.Wynveen, J.Phys: Condensed Matter, 18, 786 (2006).
DNA melting in aggregates: impeded or facilitated?
A.G.Cherstvy and A.A.Kornyshev, J.Phys.Chem.B, 2004, 108, 6508.
Direct observation of azimuthal correlations between DNA in hydrated
aggregates
A.A.Kornyshev, D.J.Lee, S.Leikin, A.Wynveen, S.Zimmerman,
Phys.Rev.Lett. 2005, 95,#148102.
For information: CBM tel. 040 375 7711 - info at cbm.fvg.it

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