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Helical Image Processing (PHOELIX) » History » Revision 16

Revision 15 (Lauren Fisher, 08/02/2011 11:57 AM) → Revision 16/38 (Lauren Fisher, 08/02/2011 12:08 PM)

h1. Helical Image Processing (PHOELIX) 

 h2. General Workflow: 

 # Make sure that the appropriate run name and directory tree are specified.    Appion increments names automatically, but users are free to specify proprietary names and directories. 
 # Enter the directory tree where the mandatory files are located.    These files include llbo.sa, strong.sa, range.sa, cutfit1.dek, cutfit2.dek, cutfit3.dek, chop1.dek, chop2.dek, and template. If you do not have these files already, run preHIP as described in the next section and follow the guided protocol to generate them.  
 # Enter a description of your run into the description box. 
 # Select the stack to process from the drop down menu.    Note that stacks can be identified in this menu by stack name, stack ID, and that the number of particles, pixel and box sizes are listed for each. 
 # Make sure that "Commit to Database" box is checked. (For test runs in which you do not wish to store results in the database this box can be unchecked.    This box is automatically deactivated when running preHIP). 
 # Enter the Filament Parameters or verify the default values.  
 #* Number of Filament Segments - the number of particles to use in the run 
 #* Repeat Length - the 360 degree repeat distance along the filament, in Ångströms. Calculated Calcuated in Fourier space by the distance to the first layer line or in real space by the distance it takes one subunit to travel 360°. 
 #* Subunits per Repeat - number of subunits in one helical repeat. Determined by calculating (Helical Repeat/Rise) or finding the Layer Line with a J0 intercept 
 #* Diameter - the approximate outer diameter of the filament, in Ångströms 
 #* Inner Diameter - the approximate inner diameter of the filament, in Ångströms 
 # Enter the Processing Parameters or verify the default values. 
 #* Filament Segment Length - desired length of the filament segments, usually a certain number of helical repeats, in pixels.    Should be the same as your stack box size. 
 #* Box Height - height of the filament box after alignments, usually the power of 2 value greater than the filament diameter, in pixels. 
 #* Pad Value - value to pad the filament box to during alignments, usually the power of 2 value greater than the filament length/box size. 
 #* Phase Residual Cutoff - maximum phase residual for post averaging.    Any files with phase residual above this cutoff will not be included in the final average, map, overplot, etc. 
 #* Filter Value - lowpass filter value for filament segments used during alignments to find filament edges. 150-200 seems to work well, but should be tested using preHIP before processing the full stack 
 #* Binning - binning of the particle images. This quickly shrinks the image to help make the processing faster 
 #* Contrast Change - if your filament stack has black on white density, the final reconstruction will need a contrast change 
 # Click on "Run HIP" to submit your job to the cluster. Alternatively, click on "Just Show Command" to obtain a command that can be pasted into a UNIX shell. 

 !http://emg.nysbc.org/attachments/959/hipwiki_fig1.png! 

 h2. Running PreHIP: 

 # Click the "Run PreHIP" checkbox which will activate the indexing parameters below it and display a warning message. 
 # Fill in the Indexing Parameters 
 #* N-fold -  
 #* Maximum Layer Line -  
 #* Maximum Bessel Order -  
 # Select either the "Use rise and twist" or "Use layer line/bessel order" radio button which will activate the parameters below it. 
 #* Rise and Twist -  
 #* (1,0),(0,1) LLBO - 
 # Click "Just Show Command" to generate the UNIX shell command. 
 # Note that the "Commit to Database" box is deactivated. preHIP is used only for generating the mandatory files and therefore the preliminary results are not stored to the database. 

 !http://emg.nysbc.org/attachments/962/hipwiki_fig2.png!