Simulated-1g1c: Difference between revisions

Simulated-1g1c (view source)

Revision as of 18:33, 19 December 2019

128 bytes removed , 19 December 2019

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Karsten

Bureaucrats

116

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 but it traces only about 62 residues. The density looks somewhat reasonable, though.
-The files [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xds-simulated-1g1c-I.mtz xds-simulated-1g1c-I.mtz] and [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xds-simulated-1g1c-F.mtz xds-simulated-1g1c-F.mtz] are available.
+The files [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xds-simulated-1g1c-I.mtz xds-simulated-1g1c-I.mtz] and [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xds-simulated-1g1c-F.mtz xds-simulated-1g1c-F.mtz] are available.
 I refined against 1g1c.pdb:
@@ Line 623: / Line 623: @@
 showing that the anomalous completeness, and even the quality of the anomalous signal, can indeed be increased. I doubt, however, that going to three or more frames would improve things even more.
-The MTZ files are at [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xds-simulated-1g1c-F-2frames.mtz] and [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xds-simulated-1g1c-I-2frames.mtz], respectively. They were of course obtained with XDSCONV.INP:
+The MTZ files are at [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xds-simulated-1g1c-F-2frames.mtz] and [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xds-simulated-1g1c-I-2frames.mtz], respectively. They were of course obtained with XDSCONV.INP:
   INPUT_FILE=temp.ahkl
   OUTPUT_FILE=temp.hkl CCP4_I
@@ Line 638: / Line 638: @@
 </pre>
-Using the default (see above) phenix.refine job, I obtain against the [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xds-simulated-1g1c-F-2frames.mtz MTZ file with amplitudes]:
+Using the default (see above) phenix.refine job, I obtain against the [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xds-simulated-1g1c-F-2frames.mtz MTZ file with amplitudes]:
   Start R-work = 0.3434, R-free = 0.3540
   Final R-work = 0.2209, R-free = 0.2479
-and against the [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xds-simulated-1g1c-I-2frames.mtz MTZ file with intensities]
+and against the [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xds-simulated-1g1c-I-2frames.mtz MTZ file with intensities]
   Start R-work = 0.3492, R-free = 0.3606
   Final R-work = 0.2244, R-free = 0.2504
@@ Line 754: / Line 754: @@
      total      165799   42025     43003       97.7%      11.7%     12.3%   162399   10.07    13.5%    14.8%    17%   0.908   16219
-Using these data (stored in [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/xscale.oldversion]), I was finally able to solve the structure (see screenshot below) - SHELXE traced 160 out of 198 residues. All files produced by SHELXE are in [ftp://turn5.biologie.uni-konstanz.de/pub/xds-datared/1g1c/shelx].
+Using these data (stored in [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/xscale.oldversion]), I was finally able to solve the structure (see screenshot below) - SHELXE traced 160 out of 198 residues. All files produced by SHELXE are in [ftp://{{SERVERNAME}}/pub/xds-datared/1g1c/shelx].
 [[File:1g1c-shelxe.png]]