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Lecture course Theoretical Biophysics summer term 2012

This course is addressed to master students in physics and related disciplines with a background in statistical mechanics. Motivated bachelor or PhD-students are also encouraged to attend. There are two lectures each week, each for 1.5 hours, plus weekly homework and exercises. Together you can earn 6 credit points from this course. The lectures take place Mon and Wed 11.15 - 12.45 in HS2 of KIP. At some point, we considered shifting the Mon lecture to the afternoon in order to avoid overlap with the condensed matter theory course given by Andreas Komnik, but because this created even more overlap, we now leave it like before. This is the entry in the LSF-database. The exercises take place Wed at 16.15 in seminar room 41 in the BioQuant-building and are held by Thorsten Erdmann.

Contents

1. biomolecules (DNA, proteins, lipids and sugars) and their interactions
2. electrostatics in the cell, genome compactification
3. membranes, Helfrich bending energy, thermal fluctuations, Helfrich interaction
4. polymers, Rouse model, force-extension curves
5. protein folding, helix-coil transition, Zimm-Bragg model
6. self-assembly, (electro)chemical potential, Langmuir adsorption, allostery
7. reaction kinetics, Michaelis-Menten kinetics
8. homeostasis, feedback, oscillations
9. diffusion and convection, life at low Reynolds number, diffusion to capture
10. living polymers, polymerization ratchet
11. force spectroscopy, adhesion clusters under force
12. molecular motors, ratchet models, cross-bridge models, force generation in muscle, Huxely model, cooperative transport
13. cell shape and mechanics, cell division, physics of development and tissue
14. excitable systems, ion channels, action potentials, cable equation, Hodgkin-Huxley model, FitzHugh-Nagumo model
15. gene expression, kinetic proofreading, sequence analysis, gene expression and protein interaction networks
16. evolution, population models, game theory, dynamics of infections, range expansion, reaction-diffusion systems, pattern formation

Material

• Introduction to the course
• Script (written by Anna Bierwirtz, Denitsa Dragneva and Ulrich Schwarz)
• Presentation on genome organization (May 7 2012)
• Paper on electrostatics in the cell (Roland Netz Physik Journal 2002)
• Presentation on biomembranes (May 21 2012)
• Presentation on stretching biopolymers (June 13 2012)
• Presentation on excitable membranes (July 4 2012)
• Nobel prize winning work by Hodgkin and Huxley from 1952
• Phase plane analysis by FitzHugh from 1961
• Chemistry Nobel Prize 2003 for structure of potassium channel, verifying the Hodgkin and Huxley concept of switchable and selective gates
• Obituary for Andrew Huxley, who died on May 30 2012 at the age of 94

Exercises

• Exercise no. 1 (April 23)
• Exercise no. 2 (April 30)
• Exercise no. 3 (May 7)
• Exercise no. 4 (May 14)
• Exercise no. 5 (May 21)
• Exercise no. 6 (May 30)
• Exercise no. 7 (June 4)
• Exercise no. 8 (June 11)
• Exercise no. 9 (June 18)
• Exercise no. 10 (June 25)
• Exercise no. 11 (July 2)
• Exercise no. 12 (July 9) (last assignment)

Literature

• Bruce Alberts et al., Molecular Biology of the Cell, 5th edition 2007
• R. Phillips, J. Kondev and J. Theriot, Physical Biology of the Cell, Garland Sci. 2009
• P. Nelson, Biological Physics, Freeman 2003
• David Boal, Mechanics of the Cell, Cambridge University Press 2002
• KA Dill and S Bromberg, Molecular Driving Forces, Garland 2003
• E. Sackmann und R. Merkel, Lehrbuch der Biophysik, Wiley-VCH 2010
• J.D. Murray, Mathematical Biology I and II, 3rd edition, Springer 2002
• James Keener and James Sneyd, Mathematical Physiology, 2nd edition Springer 2009
• Uri Alon, An Introduction to Systems Biology, Chapman & Hall 2007
• Martin Novak, Evolutionary Dynamics, Harvard University Press 2006