SS 06 |
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The exercises will be held in the tradition of the former “Biophysics seminar”: this means that the participants will give talks on topics of modern biophysical research (for topics, see on the bottom of this page). Preparation: -literature search -consideration of at least one English original paper, not older than published in 2000 -powerpoint or transparency presentations, length ~45 min -talk has to be in final form and to be delivered to me at least ONE WEEK in advance! Place and time: room 224, on Wednesday ~ 16.45 h (after the Biophysics II lecture). The next seminars will be given as listed in the following table (which is to be completed as a hard copy to be found at the “Wahlpflichtfach-Optional Lectures board” in the seminar room section in building Linnéstraße 5! Please, fill in your name and topic number! Thank you!): |
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Date |
Topic |
Speaker |
10.05. |
High Resolution Microscopy |
Martin Bock |
17.05. |
Molecular Motors |
Miriam Wisehart |
24.05. |
Prion Diseases |
Marc Großerüschkamp |
31.05. |
Rhodopsin |
Benjamin Gollnick |
14.06. |
Cytoskeleton |
Carolin Wagner |
21.06. |
Mechanics of Cells |
Katrin Hahn |
28.06. |
Optical Traps |
Rico Meier |
12.07. |
Pattern Formation |
Melanie Knorr |
List of topics:
1) optical traps and tweezers as tools in biophysics 2) protein folding and furnishing 3) molecular motors working in cells 4) modern fluorescence microscopy techniques (confocal, multi-photon..) 5) high resolution microscpies (nearfield scanning microscopy) 6) biophysics on the single-molecule level 7) Structure and function of the light sensitive receptor rhodopsin (protein structure I) 8) lipid vesicle shapes and energetics 9) Structural basis of Prion diseases (protein structure II) 10) DNA and RNA forms and phases (NA structure) 11) channels, measurements of their function 12) Biological membrane models, diffusion und its measurement 13) concept of lipid raft in living cells (rafts I) 14) physical properties of artificial lipid raft systems (rafts II) 15) components and basic physical properties of the cytoskeleton 16) self assembly, lipid phases and the effect of curvature (lipid phase behavior I) 17) Benjamin Franklin found molecular monolayers, a playground for (bio)physicists (lipid phase behavior II) 18) Bacterial S-layer proteins: structure and application 19) Mechanics of cells 20) Pattern formation in biology
Further suggestion welcome!
Questions/comments? Dr. Carsten Selle, email: selle@physik.uni-leipzig.de |