Team:Freiburg/3D-Modeling

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_3D-modeling



DNA-Origami

Planning the input pattern on the DNA-Origami surface, we generated various 3D-models of the huge molecule using [http://www.nanoengineer-1.com/content/ NanoEngineer], [http://pymol.sourceforge.net/ Pymol] and [http://spdbv.vital-it.ch/ SwissPdbViewer] (both freeware). Some of those models are shown here to give you an impression of the molecules we have engineered this year.

Fig.1: Some of the oligonucleotides that shape the single-stranded template fused to NIP-molecules and an anti-NIP-Fv-Fragment


Fig.2: DNA-Origami with NIP-molecules and anti-NIP-fragment
Fig.3: Oligo-pattern with scale and two fragments (distance estimation model, distances given in Ångstrom)
Fig.4: Oligo-pattern with scale and two T-Cell-receptors (distance estimation model, distances given in Ångstrom)


Fig.5: Oligo-pattern with NIP-molecules and Fab-fragment, binding accessibility estimation model

Fusion Proteins

The pictures below show models of the fusion proteins of our composite parts [http://partsregistry.org/wiki/index.php?title=Part:BBa_K157032 Bba_K157032] and [http://partsregistry.org/wiki/index.php?title=Part:BBa_K157033 Bba_K157033] code for (generated with "SwissPdbViewer"):
Team-Freiburg2008 Lipo alpha nCFP.pngTeam-Freiburg2008 Lipo alpha link cCFP.png
Fig.6: Red: LipocalinFluA, Grey: "Transmembrane region (BCR, no structural data; symbolized by helix), Blue: left: Split-Cerulean (CFP), N-terminal fragment; right: Split-Cerulean (CFP), C-terminal fragment
Following pdb-files have been used to generate the models: Cerulean-CFP: 2Q57
Venus-YFP: 1MYW
Engineered Lipocalin: 1n0s
B1-8 Fv-Fragment:1a6w

Freiburg08 FT3.png