EMPIAR-12240
Cryo-EM structure of 1.51 Angstroms mouse heavy-chain apoferritin in 290 nm gold foil holes (HexAuFoil) [multiple data sets in TIFF and MRC formats]
Publication:

Cryo-EM structure of mouse heavy-chain apoferritin resolved at 1.51 Å resolution in 290 nm gold foil holes (HexAuFoil)

Wang CH, Wu KP, Chang YC

(2024)

Related EMDB entry:
Deposited:
2024-07-23
Released:
2024-09-03
Last modified:
2024-09-03
Imageset size:
3.40 TB
Imageset DOI:
Experimental metadata:
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Contains:
  • micrographs - multiframe
  • micrographs - single frame
1. Unaligned multi-frame movies of mouse heavy-chain apoferritin in 290 nm gold foil holes (HexAuFoil)
Category:
micrographs - multiframe
Image format:
TIFF
No. of images or tilt series:
9017
Image size:
(11520, 8184)
Pixel type:
UNSIGNED BYTE
Pixel spacing:
(0.324, 0.324)
Details:
Unaligned multi-frame movies of mouse heavy-chain apoferritin in 290 nm gold foil holes (HexAuFoil). The movies (60 frames) were collected using Titan Krios (Magnification 130,000x) and K3 Bio-Quantum in super-resolution model with energy filter set to 15 eV energy slit width. Pixel size is 0.324 Å/pixel in super-resolution model, accumulating around 52 electron per squared Angstrom in a 1.6 second exposure. The beam shifts (X and Y), as reported by EPU, for each micrograph are listed in the attached .xml file.
Gain reference is 240508_Gain_Ref.mrc.
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2. Aligned and dose-weighted micrographs of mouse heavy-chain apoferritin in 290 nm gold foil holes (HexAuFoil) from the first 36 raw movie frames
Category:
micrographs - single frame
Image format:
MRC
No. of images or tilt series:
9017
Image size:
(5760, 4092)
Pixel type:
32 BIT FLOAT
Pixel spacing:
(0.648, 0.648)
Details:
The aligned and dose-weighted micrographs of mouse heavy-chain apoferritin in 290 nm gold foil holes (HexAuFoil) are from the first 36 motion-corrected images derived from 60 raw movie frames (accumulating 52 electrons per square angstrom in a 1.6-second exposure). Pixel size is 0.648 Å/pixel, accumulating around 31 electron per squared Angstrom in 36 frames. The beam shifts (X and Y), as reported by EPU, for each micrograph are listed in the attached .xml file.
Files:
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