1 to 10 of 11 Results
Apr 19, 2024
Iyyappan Valsala, Praveen, 2024, "Investigation of bSSFP frequency response changes during a functional experiment at 9.4 T", https://doi.org/10.17617/3.ZRZUBE, Edmond, V1
All data was acquired using an accelerated 3D stack-of-spirals sequence at a Siemens Magnetom 9. 4 T human MRI scanner. A resting-state phase-cycling experiment to assess data quality and two functional phase-cycling experiments with temporally shifted paradigm (see Figure 4) to... |
Oct 7, 2023
Anggara, Kelvin, 2023, "STM images and DFT structures of glycoconjugates", https://doi.org/10.17617/3.3F5JPU, Edmond, V2
Raw STM images of glycans and glycoconjugates were given in the SXM format outputted directly from the Nanonis control software, which can be opened using WSXM or Gwyddion. Computed structures were given in XYZ format, which can be opened by common molecular modeling software suc... |
Sep 26, 2023
Scheiderer, Lukas; von der Emde, Henrik; Hesselink, Mira; Weber, Michael; Hell, Stefan, 2023, "MINSTED tracking of single biomolecules", https://doi.org/10.17617/3.YIQGGB, Edmond, V1
We show that MINSTED localization, a method whereby the position of a fluorophore is identified with precisely controlled beams of a STED microscope, tracks fluorophores and hence labeled biomolecules with nanometer/millisecond spatio-temporal precision. By updating the position... |
Aug 25, 2023
Dimova, Rumiana, 2023, "Photomanipulation of minimal synthetic cells: area increase, softening and interleaflet coupling of membrane models doped with azobenzene-lipid photoswitches", https://doi.org/10.17617/3.CWOZQO, Edmond, V1
Supporting data (simulation files, movies) for Aleksanyan et al. (2023) Advanced Science |
Mar 3, 2023
Parekh, Sapun, 2023, "FUS Air-Buffer Figure Data", https://doi.org/10.17617/3.PUBRKR, Edmond, V2
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Dec 1, 2022
von der Emde, Henrik, 2022, "MINSTED nanoscopy enters the Ångström localization range", https://doi.org/10.17617/3.0YVCIK, Edmond, V1
Super-resolution techniques have achieved localization precisions in the nanometer regime. Here we report all-optical, room temperature localization of fluorophores with precision in the Ångström range. We built on the concept of MINSTED nanoscopy where precision is increased by... |
Nov 24, 2022
Steiert, Frederik; Schultz, Peter; Höfinger, Siegfried; Müller, Thomas; Schwille, Petra; Weidemann, Thomas, 2022, "Ratiometric Segmentation Script", https://doi.org/10.17617/3.YDSJ2C, Edmond, V2
ImageJ plugin for cell membrane segmentation of multi-channel confocal images, written by Giovanni Cardone (MPI of Biochemistry, Imaging Facility). |
Aug 9, 2022
Antonschmidt, Leif; Dirk Matthes; Rıza Dervişoğlu; Benedikt Frieg; Christian Dienemann; Andrei Leonov; Evgeny Nimerovsky; Vrinda Sant; Sergey Ryazanov; Armin Giese; Gunnar Schröder; Stefan Becker; Bert L. de Groot; Christian Griesinger; Loren B. Andreas, 2022, "The clinical drug candidate anle138b binds in a cavity of lipidic α-synuclein fibrils", https://doi.org/10.17617/3.9C6TEW, Edmond, V1
This dataset includes NMR spectra raw data generated in this study, Negative stain EM micrographs for αSyn fibrils in the presence of anle138b and mass spectrometry data for the synthesis of selectively labelled α-synuclein and 13C- and 15N-labelled anle138b, respectively. Solid-... |
Jul 20, 2022
Murray, David; Jahnel, Marcus, 2022, "Dataset for: An endosomal tether undergoes an entropic collapse to bring vesicles together", https://doi.org/10.17617/3.YYISTC, Edmond, V1
Raw data files from EM rotary shadowing experiments of Early Endosome Antigen 1 (EEA1) under various conditions. The datasets have been obtained for the study of Murray & Jahnel et al., "An endosomal tether undergoes an entropic collapse to bring vesicles together", Nature, 2016.... |
Jun 14, 2022
Tang, Dora; Gao, Mengfei; Fracasso, Giorgio; Zambrano,Adrian, 2022, "Data for: Programmable synthetic cell networks regulated by tuneable reaction rates", https://doi.org/10.17617/3.6FGVUS, Edmond, V1
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