REL 2022-06-16 2024-01-23 2024-06-06 Cryo electron microscopy micrographs of high molecular weight fractions from yeast native cell extracts 0000-0002-1445-8149 Lisa Schmidt Kastritis Laboratory for Biomolecular Research, Institute of Biochemistry and Biotechnology, Martin-Luther-University Halle-Wittenberg Weinbergweg 22 Halle Saxony-Anhalt Germany 06120 0000-0002-1463-8422 Panagiotis Kastritis Kastritis Laboratory for Biomolecular Research, Institute of Biochemistry and Biotechnology, Martin-Luther-University Halle-Wittenberg Weinbergweg 22 Halle Saxony-Anhalt Germany 06120 Schmidt L Tueting C Kyrilis F Hamdi F Semchonok DA Kastritis PL 8.4 10.6019/EMPIAR-11069 EMDB molecule EMD-15189 EMD-15214 EMD-15215 Schmidt L Tüting C Kyrilis FL Hamdi F Semchonok DA Hause G Meister A Ihling C Stubbs MT Sinz A Kastritis PL Delineating organizational principles of the endogenous L-A virus by cryo-EM and computational analysis of native cell extracts Communications biology Commun Biol 1 7 2024 English 10.1038/s42003-024-06204-7 38730276 Schmidt L Tüting C Kyrilis FL Hamdi F Semchonok DA Hause G Meister A Ihling C Shah PNM Stubbs MT Sinz A Stuart DI Kastritis PL Delineating organizational principles of the endogenous L-A virus by cryo-EM and computational analysis of native cell extracts bioRxiv 2022 10.1101/2022.07.15.498668 Multi-frame micrographs for Saccharomyces cerevisiae native cell extract fraction /data/EMPIAR/Acquisition3 micrographs - multiframe MRC MRC 2728 12 1 12 SIGNED 16 BIT INTEGER 4096 3.177 4096 3.177
Cryo-EM micrographs of Saccharomyces cerevisiae fractionated cell extract. Analyzed fraction is enriched in the endogenous L-A helper virus and Ribo- and Polysomes. Micrographs were acquired at a dose of 30 Å/px and a pixel size of 3.177.
 Multi-frame micrographs for Saccharomyces cerevisiae native cell extract fraction /data/EMPIAR/Acquisition1/12_frames micrographs - multiframe MRC MRC 7813 12 1 12 SIGNED 16 BIT INTEGER 4096 3.177 4096 3.177
Cryo-EM micrographs of Saccharomyces cerevisiae fractionated cell extract. Analyzed fraction is enriched in the endogenous L-A helper virus and Ribo- and Polysomes. Micrographs were acquired at a dose of 30 Å/px and a pixel size of 3.177.
 Multi-frame micrographs for Saccharomyces cerevisiae native cell extract fraction /data/EMPIAR/Acquisition1/13_frames micrographs - multiframe MRC MRC 2254 13 1 12 SIGNED 16 BIT INTEGER 4096 3.177 4096 3.177
Cryo-EM micrographs of Saccharomyces cerevisiae fractionated cell extract. Analyzed fraction is enriched in the endogenous L-A helper virus and Ribo- and Polysomes. Micrographs were acquired at a dose of 30 Å/px and a pixel size of 3.177.
 Multi-frame micrographs for Saccharomyces cerevisiae native cell extract fraction /data/EMPIAR/Acquisition2/12_Frames micrographs - multiframe MRC MRC 4033 12 1 12 SIGNED 16 BIT INTEGER 4096 1.5678 4096 1.5678
Cryo-EM micrographs of Saccharomyces cerevisiae fractionated cell extract. Analyzed fraction is enriched in the endogenous L-A helper virus and Ribo- and Polysomes. Micrographs were acquired at a dose of 30 Å/px and a pixel size of 1.5678, allowing for reaching atomic resolution (3.8 Å) for the L-A helper virus.
 Multi-frame micrographs for Saccharomyces cerevisiae native cell extract fraction /data/EMPIAR/Acquisition2/13_Frames micrographs - multiframe MRC MRC 2978 13 1 12 SIGNED 16 BIT INTEGER 4096 1.5678 4096 1.5678
Cryo-EM micrographs of Saccharomyces cerevisiae fractionated cell extract. Analyzed fraction is enriched in the endogenous L-A helper virus and Ribo- and Polysomes. Micrographs were acquired at a dose of 30 Å/px and a pixel size of 1.5678, allowing for reaching atomic resolution (3.8 Å) for the L-A helper virus.