Cryo-electron tomogram acquired on a cryo-FIB lamella of a retinal pigment epithelial (RPE1) cell
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
Teresa I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DW, Tollervey F, Pape C, Beck M, Kreshuk A, Mahamid J, Zaugg J
bioRxiv (2022) [ DOI: 10.1101/2022.04.12.488077 ]
Image sets:
- Tilt series stacks and metadata of cryo-electron tomograms acquired with defocus-only (DEF) on S. pombe cryo-FIB lamellae
- Raw unaligned multi-frame micrographs for each tilt in 10 tilt-series acquired with defocus-only (DEF) on S. pombe cryo-FIB lamellae
- Tilt series stacks and metadata of cryo-electron tomograms acquired with a Volta potential phase plate (VPP) and defocus on S. pombe cryo-FIB lamellae
- Raw unaligned multi-frame micrographs for each tilt in10 tilt-series acquired with a Volta potential phase plate (VPP) and defocus on S. pombe cryo-FIB lamellae
- Reconstructed cryo-electron tomograms acquired with defocus-only (DEF) on S. pombe cryo-FIB lamellae
- Reconstructed cryo-electron tomograms acquired with a Volta potential phase plate (VPP) and defocus on S. pombe cryo-FIB lamellae
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]
de Teresa-Trueba I, Goetz SK, Mattausch A, Stojanovska F, Zimmerli CE, Toro-Nahuelpan M, Cheng DWC, Tollervey F, Pape C, Beck M, Diz-Munoz A, Kreshuk A, Mahamid J, Zaugg JB
Nat Methods (2023) 20 pp. 284-294 [ DOI: doi:10.1038/s41592-022-01746-2 Pubmed: 36690741 ]