Xdscc12: Difference between revisions

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(nbin for SSX)
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   -t: total oscillation (degree) to batch fine-sliced frames into
   -t: total oscillation (degree) to batch fine-sliced frames into
  FILE_NAME can be XDS or XSCALE reflection file
  FILE_NAME can be XDS or XSCALE reflection file
  other options can be combined (e.g. -def), and switch the following off:
  other options can be combined (e.g. -def), and switch the following OFF:
   -a: individual isomorphous summary values
   -a: individual isomorphous summary values
   -b: individual (Fisher-transformed) delta-CC1/2 values
   -b: individual (Fisher-transformed) delta-CC1/2 values
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   -f: individual delta-CC1/2ano reflection numbers
   -f: individual delta-CC1/2ano reflection numbers
   -w: weighting of intensities with their sigmas
   -w: weighting of intensities with their sigmas
   -z: no Fisher transformation of delta-CC1/2 values
   -z: Fisher transformation of delta-CC1/2 values
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The program output in the terminal window is terse but supposed to be self-explanatory; it can (and most often should) be saved or re-directed to a file.  
The program output in the terminal window is terse but supposed to be self-explanatory; it can (and most often should) be saved or re-directed to a file.  
  xdscc12 ... > xdscc12.log  #  or xdscc12 ... | tee xdscc12.log
  xdscc12 ... > xdscc12.log  #  or xdscc12 ... | tee xdscc12.log
If xdscc12 is used with XDS_ASCII.HKL, the isomorphous delta-CC<sub>1/2</sub> of a batch of frames (width chosen with the -t option) relative to all data is most easily visualized via [[XDSGUI]] (Statistics tab); the delta-CC<sub>1/2-ano</sub> may be plotted with e.g. gnuplot after grepping the relevant lines from the output.
All statistics (tables) produced by xdscc12 may be visualized with e.g. gnuplot, after grepping the relevant lines from the output.
If xdscc12 is used with a XDS_ASCII.HKL reflection file (from XDS), the isomorphous delta-CC<sub>1/2</sub> of a batch of frames (width chosen with the -t option) relative to all data is most easily visualized via [[XDSGUI]] (Statistics tab). Negative numbers indicate a worsening of the overall signal.


If xdscc12 is used with a XSCALE.HKL generated from multiple datasets, the output lines show the contribution of each dataset toward the total CC<sub>1/2</sub>. Negative numbers indicate a worsening of the overall signal. In this case, the program writes a file called XSCALE.INP.rename_me which shows statistics of delta-CC<sub>1/2</sub> and delta-CC<sub>1/2-ano</sub> values, and has a sorted list on INPUT_FILEs - the first one provides the best data set, and the last one is the worst one. This XSCALE.INP.rename_me can then be edited (i.e. deleting a few data sets with very negative delta-CC<sub>1/2</sub>), and renamed to XSCALE.INP.
If xdscc12 is used with a XSCALE.HKL generated from multiple datasets, the output lines show the contribution of each dataset toward the total CC<sub>1/2</sub>. In this case, the program writes a file called XSCALE.INP.rename_me which shows statistics of delta-CC<sub>1/2</sub> and delta-CC<sub>1/2-ano</sub> values, and has a sorted enumeration of the INPUT_FILEs - the first of these provides the best data set, and the last one is the worst one. This XSCALE.INP.rename_me can then be edited (i.e. for deleting a few data sets with very negative delta-CC<sub>1/2</sub>), and renamed to XSCALE.INP.


Statistics are given (in resolution shells) for the isomorphous and the anomalous signal.
Statistics are given (in resolution shells) for the isomorphous and the anomalous signal. In case of [[SSX]] data (which have few reflections per data set, compared to complete data sets), we typically use nbin of 1 in xdscc12.


To find out about the influence of the ''a'' and ''b'' parameters of the XDS/XSCALE-adjusted error model, you may try the -w option; this assigns the same sigma to all reflections.  
To find out about the influence of the ''a'' and ''b'' parameters of the XDS/XSCALE-adjusted error model, you may try the -w option; this assigns the same sigma to all reflections. Likewise, the [https://en.wikipedia.org/wiki/Fisher_transformation Fisher transformation], which serves to make changes in CC<sub>1/2</sub> comparable across resolution ranges, may be switched off for testing purposes, with the -z option.
 
A complete description of how to process serial crystallography data with XDS/XSCALE is given in [[SSX]]. In case of SSX data (which typically have few reflections per data set, compared with complete data sets), we typically use nbin of 1.
 
A program that implements the method of [https://doi.org/10.1107/S1399004713025431 Brehm and Diederichs (2014)] and theory of [https://doi.org/10.1107/S2059798317000699 Diederichs (2017)] is [[xscale_isocluster]].
 
To remove bad frames from a XDS_ASCII.HKL file, you can use the program [[exclude_data_range_from_XDS_ASCII.HKL]], or re-INTEGRATE with the keyword [http://xds.mpimf-heidelberg.mpg.de/html_doc/xds_parameters.html#EXCLUDE_DATA_RANGE= EXCLUDE_DATA_RANGE] in [[XDS.INP]].


== Correlation against a reference data set (-r <reference> option) ==
== Correlation against a reference data set (-r <reference> option) ==
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in which case <code>sftools</code> outputs only the acentric reflections - only those have anomalous differences. <code>XDSCC12</code> then has to be run with the <code>-s -r anom-reference.hkl</code> option.
in which case <code>sftools</code> outputs only the acentric reflections - only those have anomalous differences. <code>XDSCC12</code> then has to be run with the <code>-s -r anom-reference.hkl</code> option.
== See also ==
A complete description of how to process serial crystallography data with XDS/XSCALE is given in [[SSX]].
A program that implements the method of [https://doi.org/10.1107/S1399004713025431 Brehm and Diederichs (2014)] and theory of [https://doi.org/10.1107/S2059798317000699 Diederichs (2017)] is [[xscale_isocluster]].
To remove bad frames from a XDS_ASCII.HKL file, you can use the program [[exclude_data_range_from_XDS_ASCII.HKL]], or re-INTEGRATE with the keyword [http://xds.mpimf-heidelberg.mpg.de/html_doc/xds_parameters.html#EXCLUDE_DATA_RANGE= EXCLUDE_DATA_RANGE] in [[XDS.INP]].
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