Spider Reference-based Alignment » History » Revision 7
Revision 6 (Anke Mulder, 05/11/2010 04:49 PM) → Revision 7/17 (Anke Mulder, 05/11/2010 04:59 PM)
h1. Spider Reference-based Alignment this method uses the Spider AP MQ command to align your particles to the selected templates. Multiprocessing additions has made this extremely fast (~1 hour). h2. General Workflow: # Check to boxes of templates to be used as references during alignment. # Click on "use these templates." !http://emg.nysbc.org/attachments/168/Picture_26.png! # Make sure that appropriate run name is specified. Appion increments names automatically, but users are free to specify proprietary names and directories. # Enter a description of your run into the description box. # Make sure that appropriate directory tree is specified. # Select the stack to align 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). # Double check that the templates are the ones you want to use. # Click on "Run Ref-Based Alignment" 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/169/Picture_28.png! # If your job has been submitted to the cluster, a page will appear with a link "Check status of job", which allows tracking of the job via its log-file. This link is also accessible from the "1 running" option under the "Run Alignment" submenu in the appion sidebar. # Once the job is finished, an additional link entitled "1 complete" will appear under the "Run Alignment" tab in the appion sidebar. This opens a summary of all alignments that have been done on this project. # Click on the link next to "reference stack" to open a window that shows the class averages and that contains tools for exploring the result. Such tools include the ability to browse through particles in a given class, create templates for reference based alignment, substack creation, 3D reconstruction, etc. # To perform a feature analysis, click on the grey link entitled "Run Feature Analysis on Align Stack ID xxx". h2. Notes, Comments, and Suggestions: # In the parameters box on the right, under "Particle Params" the last and first ring radii refer most important one to the inner and outermost rings along which alignment parameters will be determined. Good default values for a particle play around with a box size is "Number of 300 x 300 pixels are shown in the overview snapshot above. # In the parameters box on the right, References" under "Alignment Params" "Job parameters". This specifies the search range refers to the number of pixels "seeds" (classes) that will be considered from the center used for reference free alignment of any given starting point during parameter determinination. your particles. A step size good starting place is 10 references. # For the rest of 1 means that every single ring between first and last radii will be considered during the search. Good parameters, default values for are a particle good place to start, but can be adjusted in accordance with the demands of your project. # If you place your mouse cursor over a parameter name, a help box size appears with a thorough description of 300 x 300 pixels it. # Maximum likelihood usually generates a few "empty" classes that contain junk or no particles, as well as a few classes that appear to have two particles where one of them is on the edge. In our hands, such classes are shown in overview snapshot above. eliminated using the sub-stack tools. # We have not noticed significant advantage to decreasing the angular increment, so that we generally use maximum likelihood with a 5 degree angular increment to create templates for subsequent finer alignment via reference-based tools. ______ [[Run_Alignment|<Run Alignment]] | [[Run Feature Analysis|Run Feature Analysis >]] ______