Sub-3Å proteasome image-shift data collection » History » Version 4
Anchi Cheng, 08/16/2016 07:39 PM
| 1 | 1 | Anchi Cheng | h1. Sub-3Å proteasome image-shift data collection |
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| 3 | 4 | Anchi Cheng | 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. |
| 4 | 2 | Anchi Cheng | |
| 5 | The speed gain relative to previous stage shift data collection is from |
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| 7 | # removing iterative movement at Exposure node |
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| 8 | 4 | Anchi Cheng | # removing queue processing at Exposure node since both need target adjustment and long wait time before stable imaging. |
| 9 | 2 | Anchi Cheng | # using counting mode. not super-resolution mode on K2. |
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| 11 | *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. |
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| 13 | The Transfer Function will reduce all structure factor to 78% at these beamtilts assuming 0.167 mrad per 1 um image shift: |
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| 14 | |||
| 15 | |image shift (um) |45 degree phase modification resolution(0.78 transfer function amplitude) (Angstroms)| |
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| 16 | |1|2.4| |
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| 17 | |2|3.0| |
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| 18 | |3|3.5| |
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| 19 | |4|3.8| |
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| 21 | 1 | Anchi Cheng | h2. Instruments |
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| 23 | SEMC@NYSBC Krios |
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| 24 | # Scope: FEI Titan-Krios, 300 kV, micro probe at low mag, nano probe at high mags |
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| 25 | # Camera: Gatan K2. mount below Falcon/Ceta. 1.21 Å at 29kx scope nominal mag |
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| 27 | h2. Grid |
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| 28 | |||
| 29 | * 1.2/1.3 C-flat carbon support; 400 mesh Copper grid. |
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| 31 | 3 | Anchi Cheng | {{include(Krios1-K2-NYSBC)}} |
| 32 | 1 | Anchi Cheng | |
| 33 | h2. Application: |
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| 35 | MSI-T2 Advanced (= MSI-T + "Beam Tilt Image" for coma-free alignment + "N2 Filling" for Krios auto nitrogen filler) |
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| 37 | h2. Presets Manager: |
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| 39 | No preset cycling (Krios has its own normalization). |
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| 41 | h2. Queuing usage: |
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| 43 | Hole Targeting: Queuing, target at the carbon area to cover four holes. |
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| 44 | Exposure Targeting: *No Queuing*. automated targeting. See [[Exposure Targeting Set-up for MSi-T for Four Holes]] |
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| 46 | h2. Move method to reach the targets: |
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| 48 | Hole: [[Iterative_Stage_Movement|Navigator Iterative movement]]: Target Tolerance: 1e-7 m; Acceptable Tolerance: 3e-7 m |
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| 49 | Focus: Presets Manager image shift |
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| 50 | Exposure: Presets Manager image shift |
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| 51 | |||
| 52 | 4 | Anchi Cheng | h2. Wait time before final exposure chosen to reduce maximal frame drift to average to 2 Angstroms : |
| 53 | 1 | Anchi Cheng | 3 seconds |
| 54 | 10 seconds addition for the first target |
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| 55 | 4 | Anchi Cheng | |
| 56 | h2. A trick to get Image shift targeting accuracy better: |
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| 58 | [[Scaling Image Shift Matrix Calibration]] |
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| 59 | Get a better estimate of stage position matrix at en magnification by scaling the matrix at hl mag. |
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| 60 | You can find the matrix in image report (Click on the "i" in the myamiweb imageviewer toolbar) |
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| 61 | Scale the matrix by magnification will give a reasonable value. |
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| 63 | For example, if your hl preset at 1300x has a matrix of |
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| 64 | <pre> |
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| 65 | 2e-9 -6e-9 |
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| 66 | -6e-9 -2e-9 |
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| 67 | </pre> |
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| 68 | Then a good estimate of the matrix for your en preset at 22500x would be multiplied by 1300 / 22500 and becomes |
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| 69 | <pre> |
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| 70 | 1.16e-10 -3.47e-10 |
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| 71 | -3.47e-10 -1.16e-10 |
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| 72 | </pre> |
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| 74 | Enter this in Matrix node in Calibrations application using the Edit tool in the toolbar |