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Dietz, Hendrik - Physik Department, Technische Universität München
T h e o p e n a c c e s s j o u r n a l f o r p h y s i c s New Journal of Physics
Protein structure by mechanical triangulation Hendrik Dietz and Matthias Rief*
Switchable hydrogels DOI: 10.1002/smll.200700366
Cysteine engineering of polyproteins for single-molecule force spectroscopy
www.sciencemag.org SCIENCE VOL 325 7 AUGUST 2009 685 PERSPECTIVES
Stefan K. Kufer Hendrik Dietz Christian Albrecht Kerstin Blank Angelika Kardinal
Nanotechnology Double Helix
Nature Methods A primer to scaffolded DNA origami
DOI: 10.1126/science.1174251 , 725 (2009);325Science
Elastic Bond Network Model for Protein Unfolding Mechanics Hendrik Dietz1,* and Matthias Rief2,
Anisotropic deformation response of single protein molecules
2006 Nature Publishing Group Vol 439|9 February 2006
G E O P H YS I C S Trading Places
Revealing the bifurcation in the unfolding pathways of GFP by using single-molecule experiments
Molecular self-assembly with scaffolded DNA origami enables building custom-shaped
Detecting Molecular Fingerprints in Single Molecule Force Spectroscopy Using Pattern Recognition
Quantitative prediction of 3D solution shape and flexibility of nucleic acid nanostructures Do-Nyun Kim1
Quantitative prediction of 3D solution shape and flexibility of nucleic acid nanostructures
Supplementary Figure 1. Size exclusion chromatography of KLP11/20-C reveals its heterodimeric state. The left lane shows the protein loaded onto the column after the
Volume 22 November 15, 2011 4279 MBoC | ARTICLE
