Xds maxcc12: Difference between revisions

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To analyze XDS_ASCII.HKL in terms of the detailed course of CC<sub>1/2</sub> by frame number and resolution, you could use the program [ftp://turn5.biologie.uni-konstanz.de/pub/xds_maxcc12.linux64 XDS_MAXCC12] .
To analyze XDS_ASCII.HKL in terms of the detailed course of CC<sub>1/2</sub> by frame number and resolution, you could use the program [ftp://turn5.biologie.uni-konstanz.de/pub/xds_maxcc12.linux64 XDS_MAXCC12] , to be stored as xds_maxcc12 in your ~/bin or (as root) in /usr/local/bin (don't forget to chmod a+x xds_maxcc12 !).


You also need a script such as  
You also need a script such as  
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[[File:xds_maxcc12.png]]
[[File:xds_maxcc12.png]]


The plot is useful because it shows you the cumulative influence of the frames on CC<sub>1/2</sub> and completeness of ten resolution shells (to change that number, you must modify the script). The highest resolution shell us usually the lowest curve (red); the curves above are lower resolution shells. (To get the legend which maps the colors and linetypes to resolution range numbers, remove the "set nokey" line in the script)
The plot is useful because it shows you the cumulative influence of all frames of the dataset on CC<sub>1/2</sub> and completeness of ten resolution shells (to change that number, you must modify the script). The highest resolution shell us usually the lowest curve (red); the curves above are lower resolution shells. (To get the legend which maps the colors and linetypes to resolution range numbers, remove the "set nokey" line in the script)
 
This may shed light on the usefulness of certain frame ranges of your dataset which have high R<sub>meas</sub>. Do they really compromise CC<sub>1/2</sub> of the merged data - which is all you should care about?


The example plot shows that CC<sub>1/2</sub> is highest around frame 60 to 70 and then gets lower due to radiation damage. However it also makes clear that around frame 60, the completeness is only about 50%. In this case, the anomalous signal is practically just noise.
The example plot shows that CC<sub>1/2</sub> is highest around frame 60 to 70 and then gets lower due to radiation damage. However it also makes clear that around frame 60, the completeness is only about 50%. In this case, the anomalous signal is practically just noise.
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