8C8M
In vitro structure of the Nitrosopumilus maritimus S-layer - Composite map between two and six-fold symmetrised
ELECTRON MICROSCOPY
Refinement
RMS Deviations | |
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Key | Refinement Restraint Deviation |
r_dihedral_angle_2_deg | 34.7 |
r_dihedral_angle_4_deg | 22.089 |
r_long_range_B_refined | 18.65 |
r_long_range_B_other | 18.65 |
r_dihedral_angle_3_deg | 13.952 |
r_scangle_other | 12.227 |
r_mcangle_it | 9.148 |
r_mcangle_other | 9.148 |
r_scbond_it | 7.869 |
r_scbond_other | 7.868 |
Sample |
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Nitrosopumilus maritimus S-layer |
Specimen Preparation | |
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Sample Aggregation State | 2D ARRAY |
Vitrification Instrument | FEI VITROBOT MARK IV |
Cryogen Name | NITROGEN |
Sample Vitrification Details | absorption for 60 sec and blotted for 5 sec with blot force -10 |
3D Reconstruction | |
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Reconstruction Method | SINGLE PARTICLE |
Number of Particles | 354860 |
Reported Resolution (Å) | 2.87 |
Resolution Method | OTHER |
Other Details | Composite map between C2 and C6 symmetrised maps. Created with refmac5 and the reference models as cutoffs |
Refinement Type | |
Symmetry Type | POINT |
Map-Model Fitting and Refinement | |||||
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Id | 1 | ||||
Refinement Space | RECIPROCAL | ||||
Refinement Protocol | AB INITIO MODEL | ||||
Refinement Target | Best Fit | ||||
Overall B Value | |||||
Fitting Procedure | |||||
Details | Composite map between C2 and C6 created using refmac5 |
Data Acquisition | |||||||||
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Detector Type | GATAN K3 BIOQUANTUM (6k x 4k) | ||||||||
Electron Dose (electrons/Å**2) | 48.5 |
Imaging Experiment | 1 |
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Date of Experiment | |
Temperature (Kelvin) | |
Microscope Model | FEI TITAN KRIOS |
Minimum Defocus (nm) | 2000 |
Maximum Defocus (nm) | 5000 |
Minimum Tilt Angle (degrees) | |
Maximum Tilt Angle (degrees) | |
Nominal CS | 2.7 |
Imaging Mode | BRIGHT FIELD |
Specimen Holder Model | FEI TITAN KRIOS AUTOGRID HOLDER |
Nominal Magnification | 81000 |
Calibrated Magnification | 81000 |
Source | FIELD EMISSION GUN |
Acceleration Voltage (kV) | 300 |
Imaging Details |
EM Software | ||
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Task | Software Package | Version |
PARTICLE SELECTION | Topaz | 0.2.5 |
PARTICLE SELECTION | RELION | |
IMAGE ACQUISITION | EPU | |
CTF CORRECTION | CTFFIND | 4.1.13 |
MODEL FITTING | Coot | 0.9.2-pre |
MODEL REFINEMENT | PHENIX | 1.19-4092 |
MODEL REFINEMENT | REFMAC | |
INITIAL EULER ASSIGNMENT | RELION | 3.1 |
FINAL EULER ASSIGNMENT | RELION | 3.1 |
CLASSIFICATION | RELION | 3.1 |
RECONSTRUCTION | RELION | 3.1 |
Image Processing | ||||
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CTF Correction Type | CTF Correction Details | Number of Particles Selected | Particle Selection Details | |
PHASE FLIPPING AND AMPLITUDE CORRECTION | RELION refinement with in-built CTF correction. The function is similar to a Wiener filter, so amplitude correction included. | 1971908 | Initially, side views of S-layer sheets were first manually picked along the edge of the lattice using the helical picking tab in RELION while setting the helical rise to 60 angstrom. Top and tilted views were manually picked at the central hexameric axis. Manually picked particles were extracted in 4x downsampled 128x128 pixel2 boxes and classified using reference-free 2D classification inside RELION-3.1. Class averages centered at a hexameric axis were used to automatically pick particles inside RELION-3.1. Automatically picked particles were extracted in 4x downsampled 128x128 pixel2 boxes and classified using reference-free 2D classification. Particle coordinates belonging to class averages centered at the hexameric axis were used to train TOPAZ in 5x downsampled micrographs with the neural network architecture conv127. For the final reconstruction, particles were picked using TOPAZ and the previously trained neural network above. Additionally, top, bottom, and side views were picked using the reference-based autopicker inside RELION-3.1, which TOPAZ did not readily identify. Particles were extracted in 4x downsampled 128x128 pixel2 boxes and classified using reference-free 2D classification inside RELION-3.1. Particles belonging to class averages centered at the hexameric axis were combined, and particles within 30 angstrom were removed to prevent duplication after alignment. All resulting particles were then re-extracted in 4x downsampled 128x128 pixel2 boxes. |