2QVO.xds: Difference between revisions
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==XDS data reduction== | ==XDS data reduction== | ||
This is a pared-down XDS.INP (obtained by egrep -v '^ *!' XDS.INP) based upon XDS-MARCDD.INP from the XDS distribution site - it has only those lines that are not commented out | This is a pared-down XDS.INP (obtained by egrep -v '^ *!' XDS.INP) based upon XDS-MARCDD.INP from the XDS distribution site - it has only those lines that are not commented out (to arrive here, one takes the steps outlined in [[Tutorial(First_Steps)]]): | ||
DETECTOR=CCDCHESS MINIMUM_VALID_PIXEL_VALUE=1 OVERLOAD=65000 | DETECTOR=CCDCHESS MINIMUM_VALID_PIXEL_VALUE=1 OVERLOAD=65000 | ||
DIRECTION_OF_DETECTOR_X-AXIS= 1.0 0.0 0.0 | DIRECTION_OF_DETECTOR_X-AXIS= 1.0 0.0 0.0 | ||
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POLARIZATION_PLANE_NORMAL= 0.0 1.0 0.0 | POLARIZATION_PLANE_NORMAL= 0.0 1.0 0.0 | ||
SPACE_GROUP_NUMBER=0 !0 for unknown crystals; cell constants are ignored. | SPACE_GROUP_NUMBER=0 !0 for unknown crystals; cell constants are ignored. | ||
FRIEDEL'S_LAW=FALSE !Default is TRUE. | FRIEDEL'S_LAW=FALSE !Default is TRUE. | ||
NAME_TEMPLATE_OF_DATA_FRAMES=../../g/040707-8_2_2_1.???? ! TIFF | NAME_TEMPLATE_OF_DATA_FRAMES=../../g/040707-8_2_2_1.???? ! TIFF | ||
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WFAC1=1.5 !This controls the number of rejected MISFITS in CORRECT; a larger value leads to fewer rejections. | WFAC1=1.5 !This controls the number of rejected MISFITS in CORRECT; a larger value leads to fewer rejections. | ||
STRONG_PIXEL=6.0 !used by: COLSPOT | STRONG_PIXEL=6.0 !used by: COLSPOT | ||
Using the above as XDS.INP, we run xds_par for the first time. It will stop after the IDXREF step with the usual error message | |||
!!! ERROR !!! INSUFFICIENT PERCENTAGE (< 70%) OF INDEXED REFLECTIONS | |||
AUTOMATIC DATA PROCESSING STOPPED. AS THE CRITERIA FOR A GOOD | |||
SOLUTION ARE RATHER STRICT, YOU MAY CHOOSE TO CONTINUE DATA | |||
PROCESSING AFTER CHANGING THE "JOB="-CARD IN "XDS.INP" TO | |||
"JOB= DEFPIX INTEGRATE CORRECT". | |||
IF THE BEST SOLUTION IS REALLY NONSENSE YOU SHOULD FIRST HAVE | |||
A LOOK AT THE ASCII-FILE "SPOT.XDS". THIS FILE CONTAINS THE | |||
INITIAL SPOT LIST SORTED IN DECREASING SPOT INTENSITY. SPOTS | |||
NEAR THE END OF THE FILE MAY BE ARTEFACTS AND SHOULD BE ERASED. | |||
ALTERNATIVELY YOU MAY TRY DIFFERENT VALUES FOR "INDEX_ORIGIN" | |||
AS SUGGESTED IN THE ABOVE LISTING. | |||
IF THE CRYSTAL HAS SLIPPED AT THE BEGINNING OF DATA COLLECTION | |||
YOU MAY CHOOSE TO SKIP SOME OF THE FIRST FRAMES BY CHANGING | |||
THE "DATA_RANGE=" IN FILE "XDS.INP" AND START ALL OVER AGAIN. | |||
We choose to continue nevertheless and modify XDS.INP to have | |||
JOB= DEFPIX INTEGRATE CORRECT | |||
Again we run xds_par. This runs to completion. The automatic spacegroup determination comes up with | |||
SPACE_GROUP_NUMBER= 75 | |||
UNIT_CELL_CONSTANTS= 53.10 53.10 40.90 90.000 90.000 90.000 | |||
Now we copy these two lines to XDS.INP, replacing the old line SPACE_GROUP_NUMBER=0 . Then we modify the spacegroup number to 77 because we know that the true spacegroup is P4_2. Also, we modify the JOB line once again: | |||
JOB= CORRECT | |||
and run xds_par for the last time. | |||
The resulting output files are XYCORR.LP, INIT.LP, COLSPOT.LP, IDXREF.LP, DEFPIX.LP, INTEGRATE.LP and CORRECT.LP. Data files are XPARM.XDS (from IDXREF), and the XDS_ASCII.HKL file all of which can be downloaded from [[Media:Xds_2qvo.tar.bz2.png|here]]. | The resulting output files are XYCORR.LP, INIT.LP, COLSPOT.LP, IDXREF.LP, DEFPIX.LP, INTEGRATE.LP and CORRECT.LP. Data files are XPARM.XDS (from IDXREF), and the XDS_ASCII.HKL file all of which can be downloaded from [[Media:Xds_2qvo.tar.bz2.png|here]]. | ||
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end | end | ||
This writes | This writes j.hkl, j_fa.hkl and j_fa.ins. However, we overwrite j_fa.ins now: | ||
cat > j_fa.ins <<end | cat > j_fa.ins <<end | ||
TITL j_fa.ins SAD in P42 | TITL j_fa.ins SAD in P42 |
Revision as of 23:39, 8 November 2009
XDS data reduction
This is a pared-down XDS.INP (obtained by egrep -v '^ *!' XDS.INP) based upon XDS-MARCDD.INP from the XDS distribution site - it has only those lines that are not commented out (to arrive here, one takes the steps outlined in Tutorial(First_Steps)):
DETECTOR=CCDCHESS MINIMUM_VALID_PIXEL_VALUE=1 OVERLOAD=65000 DIRECTION_OF_DETECTOR_X-AXIS= 1.0 0.0 0.0 DIRECTION_OF_DETECTOR_Y-AXIS= 0.0 1.0 0.0 TRUSTED_REGION=0.0 0.99 !Relative radii limiting trusted detector region MAXIMUM_NUMBER_OF_PROCESSORS=8!<25;ignored by single cpu version of xds JOB= XYCORR INIT COLSPOT IDXREF DEFPIX INTEGRATE CORRECT ORGX=2000 ORGY=2048 !Detector origin (pixels)! numbers are rough estimates w/ adxv DETECTOR_DISTANCE= 125.0 !(mm) ROTATION_AXIS= 1.0 0.0 0.0 OSCILLATION_RANGE=1.0 !degrees (>0) X-RAY_WAVELENGTH=1.9 !Angstroem INCIDENT_BEAM_DIRECTION=0.0 0.0 1.0 FRACTION_OF_POLARIZATION=0.95 !default=0.5 for unpolarized beam POLARIZATION_PLANE_NORMAL= 0.0 1.0 0.0 SPACE_GROUP_NUMBER=0 !0 for unknown crystals; cell constants are ignored. FRIEDEL'S_LAW=FALSE !Default is TRUE. NAME_TEMPLATE_OF_DATA_FRAMES=../../g/040707-8_2_2_1.???? ! TIFF DATA_RANGE=1 360 !Numbers of first and last data image collected BACKGROUND_RANGE=1 5 !Numbers of first and last data image for background SPOT_RANGE=1 180 !First and last data image number for finding spots REFINE(IDXREF)=BEAM AXIS ORIENTATION CELL DISTANCE REFINE(INTEGRATE)=DISTANCE BEAM ORIENTATION CELL !AXIS REFINE(CORRECT)=DISTANCE BEAM ORIENTATION CELL AXIS VALUE_RANGE_FOR_TRUSTED_DETECTOR_PIXELS= 6000 30000 !Used by DEFPIX for excluding shaded parts of the detector. INCLUDE_RESOLUTION_RANGE=50.0 0 !Angstroem; used by DEFPIX,INTEGRATE,CORRECT MINIMUM_ZETA=0.1 !Defines width of 'blind region' (XPLAN,INTEGRATE,CORRECT) WFAC1=1.5 !This controls the number of rejected MISFITS in CORRECT; a larger value leads to fewer rejections. STRONG_PIXEL=6.0 !used by: COLSPOT
Using the above as XDS.INP, we run xds_par for the first time. It will stop after the IDXREF step with the usual error message
!!! ERROR !!! INSUFFICIENT PERCENTAGE (< 70%) OF INDEXED REFLECTIONS AUTOMATIC DATA PROCESSING STOPPED. AS THE CRITERIA FOR A GOOD SOLUTION ARE RATHER STRICT, YOU MAY CHOOSE TO CONTINUE DATA PROCESSING AFTER CHANGING THE "JOB="-CARD IN "XDS.INP" TO "JOB= DEFPIX INTEGRATE CORRECT". IF THE BEST SOLUTION IS REALLY NONSENSE YOU SHOULD FIRST HAVE A LOOK AT THE ASCII-FILE "SPOT.XDS". THIS FILE CONTAINS THE INITIAL SPOT LIST SORTED IN DECREASING SPOT INTENSITY. SPOTS NEAR THE END OF THE FILE MAY BE ARTEFACTS AND SHOULD BE ERASED. ALTERNATIVELY YOU MAY TRY DIFFERENT VALUES FOR "INDEX_ORIGIN" AS SUGGESTED IN THE ABOVE LISTING. IF THE CRYSTAL HAS SLIPPED AT THE BEGINNING OF DATA COLLECTION YOU MAY CHOOSE TO SKIP SOME OF THE FIRST FRAMES BY CHANGING THE "DATA_RANGE=" IN FILE "XDS.INP" AND START ALL OVER AGAIN.
We choose to continue nevertheless and modify XDS.INP to have
JOB= DEFPIX INTEGRATE CORRECT
Again we run xds_par. This runs to completion. The automatic spacegroup determination comes up with
SPACE_GROUP_NUMBER= 75 UNIT_CELL_CONSTANTS= 53.10 53.10 40.90 90.000 90.000 90.000
Now we copy these two lines to XDS.INP, replacing the old line SPACE_GROUP_NUMBER=0 . Then we modify the spacegroup number to 77 because we know that the true spacegroup is P4_2. Also, we modify the JOB line once again:
JOB= CORRECT
and run xds_par for the last time.
The resulting output files are XYCORR.LP, INIT.LP, COLSPOT.LP, IDXREF.LP, DEFPIX.LP, INTEGRATE.LP and CORRECT.LP. Data files are XPARM.XDS (from IDXREF), and the XDS_ASCII.HKL file all of which can be downloaded from here.
SHELXC/D/E structure solution
generate XDSCONV.INP (a trick is to use MERGE=TRUE, for some reason the results are better that way) and run xdsconv and shelxc:
#!/bin/csh -f cat > XDSCONV.INP <<end INPUT_FILE=../XDS_ASCII.HKL OUTPUT_FILE=temp.hkl SHELX MERGE=TRUE FRIEDEL'S_LAW=FALSE end xdsconv shelxc j <<end SAD temp.hkl CELL 53.10 53.10 40.90 90 90 90 SPAG P42 MAXM 2 end
This writes j.hkl, j_fa.hkl and j_fa.ins. However, we overwrite j_fa.ins now:
cat > j_fa.ins <<end TITL j_fa.ins SAD in P42 CELL 0.98000 53.10 53.10 40.90 90.00 90.00 90.00 LATT -1 SYMM -Y, X, 1/2+Z SYMM -X, -Y, Z SYMM Y, -X, 1/2+Z SFAC S UNIT 128 SHEL 999 3.0 FIND 3 NTRY 100 MIND -1.0 2.2 ESEL 1.3 TEST 0 99 SEED 1 PATS HKLF 3 END end shelxd j_fa
This gives best CC All/Weak of 35.61 / 26.03 . Next we run G. Sheldrick's beta-Version of shelxe Version 2009/4:
shelxe.beta -a6 -q j j_fa -h -s0.55 -m20 -b
Some important lines in the output:
79 residues left after pruning, divided into chains as follows: A: 20 B: 22 C: 37 CC for partial structure against native data = 50.42 % <wt> = 0.300, Contrast = 0.731, Connect. = 0.817 for dens.mod. cycle 20 Estimated mean FOM = 0.659 Pseudo-free CC = 68.71 %
clearly indicating that the structure is solved.
For completeness, we run the inverse hand:
shelxe.beta -a6 -q j j_fa -h -s0.55 -m20 -b -i
but of course this gives much worse statistics.