TY  - GEN
KW  - Einzelne Moleküle 
KW  -  Biophysik 
KW  -  mechanische Eigenschaftenoptical tweezers 
KW  -  molecular recognition 
KW  -  single molecules 
KW  -  conformational change 
KW  -  avidin-biotin complex
ID  - heidok4565
Y1  - 2003///
A1  - Fisinger, Samo
TI  - Mechanical Properties of Individual Molecules : An Interface between the Structure and the Function of the Molecules
N2  - Optical tweezers with a 3D position detection were used to investigate the mechanical properties of individual molecules. The molecular receptor-ligand pair of avidin and biotin was used as a model system to establish our technique. Optical tweezers created the possibility to position the microsphere into close proximity of the surface and to define the local boundary conditions for the interaction. Under these experimental conditions we measured the average binding time of the bead to the surface as a function of the density of biotin on the surface. A diffusion based model was used to estimate the effective size of the molecular binding center from the average reaction time. The size of the molecular binding center as determined by our method is in good agreement with the size of an individual Bovine Serum Albumin molecule. The lateral position fluctuations of the bound bead were also used to determine the type of the contact. It was possible to distinguish between individual and multiple molecular bonds. The same method was applied to the study of mechanical properties of the SNARE-complex. The SNARE-complex consists of three proteins: syntaxin, synaptobrevin and SNAP-25. We measured and analyzed the mechanical properties of the interactions between four combinations between the building blocks of the SNARE-complex. Altogether, four different protein combinations were measured. The molecular binding assay showed qualitative differences between different molecules. In particular, the interaction between two syntaxin molecules and a single SNAP-25 molecule showed a unique pattern: a continuous decrease in lateral position fluctuations was accompanied by a rotation. This spiralling was interpreted in terms of an individual SNARE-complex formation.
UR  - https://archiv.ub.uni-heidelberg.de/volltextserver/4565/
AV  - public
ER  -