R
Rasmus R. Schröder
Researcher at Heidelberg University
Publications - 176
Citations - 4280
Rasmus R. Schröder is an academic researcher from Heidelberg University. The author has contributed to research in topics: Transmission electron microscopy & Phase (waves). The author has an hindex of 28, co-authored 167 publications receiving 3641 citations. Previous affiliations of Rasmus R. Schröder include Max Planck Society & Karlsruhe Institute of Technology.
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Journal ArticleDOI
Dimer ribbons of ATP synthase shape the inner mitochondrial membrane.
TL;DR: The mitochondrial cristae act as proton traps, and the proton sink of the ATP synthase at the apex of the compartment favours effective ATP synthesis under proton‐limited conditions, and it is proposed that the mitochondria organises itself into dimer ribbons to optimise its own performance.
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Electron cryo-microscopy shows how strong binding of myosin to actin releases nucleotide
TL;DR: By fitting atomic models of actin and the myosin cross-bridge into high-resolution electron cryo-microscopy three-dimensional reconstructions, the molecular basis of this linkage is described and the closing of the actin-binding cleft when actin binds is structurally coupled to the opening of the nucleotide-binding pocket.
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Three-dimensional atomic model of F-actin decorated with Dictyostelium myosin S1
Rasmus R. Schröder,Dietmar J. Manstein,Werner Jahn,Hazel M. Holden,Ivan Rayment,Ivan Rayment,Kenneth C. Holmes,James A. Spudich,James A. Spudich +8 more
TL;DR: An atomic model for the actomyosin complex is produced by combining the atomic X-ray structure of F-actin3,4 and chicken myosin S15 with a three-dimensional reconstruction from electron micrographs of frozen-hydrated F- actin decorated with recombinant Dictyostelium myOSin S1.
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Three-Dimensional Reconstruction with Contrast Transfer Function Correction from Energy-Filtered Cryoelectron Micrographs: Procedure and Application to the 70S Escherichia coli Ribosome
TL;DR: Methods to determine the CTF from experimental data and to obtain a CTF-corrected 3D reconstruction were developed, resulting in a distortion-free 3D map of the ribosome at 1/24.5 A-1 resolution.
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Visualizing a homogeneous blend in bulk heterojunction polymer solar cells by analytical electron microscopy.
Martin Pfannmöller,Harald Flügge,Gerd Benner,Irene Wacker,Christoph Sommer,Michael Hanselmann,Stephan Schmale,Hans Schmidt,Fred A. Hamprecht,Torsten Rabe,Wolfgang Kowalsky,Rasmus R. Schröder +11 more
TL;DR: For the first time, high-resolution spectroscopic imaging using an analytical transmission electron microscope with nonlinear multivariate statistical analysis for classification of multispectral image data results in a visual representation showing homogeneous phases of donor and acceptor.