Sub-3Å proteasome image-shift data collection » History » Revision 4
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Anchi Cheng, 08/16/2016 07:39 PM
Sub-3Å proteasome image-shift data collection¶
This data collection obtained same quality data set as stage shift at 1.4x speed with the same presets. More speed gain relative to super-resolution mode data collection. Final reconstruction from the better of the two 3D subclasses (48,000 or ~57,000 cleaned-up particles) gave FSC 0.143 at 2.89 A.
The speed gain relative to previous stage shift data collection is from
- removing iterative movement at Exposure node
- removing queue processing at Exposure node since both need target adjustment and long wait time before stable imaging.
- using counting mode. not super-resolution mode on K2.
VERY IMPORTANT: Measure the amount of beam tilt associated with the image-shift at your scope so that it is not compromising the data. Our scope is at 0.3 mrad at the 1.7 um image shift we applied in this experiment.
The Transfer Function will reduce all structure factor to 78% at these beamtilts assuming 0.167 mrad per 1 um image shift:
image shift (um) | 45 degree phase modification resolution(0.78 transfer function amplitude) (Angstroms) |
1 | 2.4 |
2 | 3.0 |
3 | 3.5 |
4 | 3.8 |
Instruments¶
SEMC@NYSBC Krios- Scope: FEI Titan-Krios, 300 kV, micro probe at low mag, nano probe at high mags
- Camera: Gatan K2. mount below Falcon/Ceta. 1.21 Å at 29kx scope nominal mag
Grid¶
- 1.2/1.3 C-flat carbon support; 400 mesh Copper grid.
Krios-K2 Presets used for 2.8 A proteasome reconstruction in 5 hours data collection at SEMC @ NYSBC¶
- Nanoprobe was used to allow smaller beam to be used for multiple targeting on 2 um hole although not essential in this case.
Tecnai Krios 300 kV high tension, XFEG, Gun Lens 4 extraction voltage 4100, 70 um C2 aperture and 100 um objective aperture (except when obtaining grid atlas).
Gatan camera dimension 3710(w)x 3838(h) after rotation to Leginon standard. The size of the beam on the scope main viewing screen always covers the 1.2 um hole at en preset on our scope.
Pixel size is 1.10 A at 22500x scope nominal mag.:
Probe | Lens Series | Magnification: | Preset name: | Image Shift (x,y): | Dimension: | Binning: | Camera Dose (e/camera pixel/s): | Exposure Time (ms): | Specimen Dose Rate (e/A^2): | Spot Size: | Defocus (m): | C2 (um): | frame saving: | Camera |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
micro | LM | 100 | gr | Aligned | 1024x1024 | 4 | n/a | 500 | n/a | 5 | 0.0 | 70 | no | Ceta |
micro | SA | 400** | sq | Aligned | 927x959 | 4 | 8 | 100 | n/a | 10 | -2e-4 | 70 | no | K2 |
nano | SA | 1300** | hl | Aligned | 927x959 | 4 | 8 | 200 | 0.004 | 11 | -1.5e-4 | 70 | no | K2 |
nano | SA | 22500 | fc | 0,0 | 924x924 | 2 | >=8* | 500 | 3.3 | 8 | -7e-7 | 70 | no | K2 |
nano | SA | 22500 | fa | 0,0 | 927x959 | 4 | >=8* | 250 | 1.65 | 8 | -1.5e-6 | 70 | no | K2 |
nano | SA | 22500 | en | 0,0 | 3710x3838 | 1 | 8 e/pixel/s and ~0.7 um on the specimen | 7000 | 46 | 8 | (-1e-6 to -2e-6) | 70 | 200 ms/frame |
- Note: If the correlation or power spectrum don't work well enough for the standard Camera Dose Rate of 10 e/pixel/s for fc and fa, you may increase it more so not to have to use longer exposure time. The recommended value in literature is meant to give highest DQE at all sampling frequencies. Using a higher camera dose by 50% will certainly not damage the sensor.
- Note: no defocal pair was acquired in this experiment. Therefore, no ef preset.
Application:¶
MSI-T2 Advanced (= MSI-T + "Beam Tilt Image" for coma-free alignment + "N2 Filling" for Krios auto nitrogen filler)
Presets Manager:¶
No preset cycling (Krios has its own normalization).
Queuing usage:¶
Hole Targeting: Queuing, target at the carbon area to cover four holes.
Exposure Targeting: No Queuing. automated targeting. See Exposure Targeting Set-up for MSi-T for Four Holes
Move method to reach the targets:¶
Hole: Navigator Iterative movement: Target Tolerance: 1e-7 m; Acceptable Tolerance: 3e-7 m
Focus: Presets Manager image shift
Exposure: Presets Manager image shift
Wait time before final exposure chosen to reduce maximal frame drift to average to 2 Angstroms :
3 seconds
10 seconds addition for the first target¶
A trick to get Image shift targeting accuracy better:¶
Scaling Image Shift Matrix Calibration
Get a better estimate of stage position matrix at en magnification by scaling the matrix at hl mag.
You can find the matrix in image report (Click on the "i" in the myamiweb imageviewer toolbar)
Scale the matrix by magnification will give a reasonable value.
For example, if your hl preset at 1300x has a matrix of
2e-9 -6e-9 -6e-9 -2e-9
Then a good estimate of the matrix for your en preset at 22500x would be multiplied by 1300 / 22500 and becomes
1.16e-10 -3.47e-10 -3.47e-10 -1.16e-10
Enter this in Matrix node in Calibrations application using the Edit tool in the toolbar
Updated by Anchi Cheng over 8 years ago · 4 revisions