Difference between revisions of "Fabry:Homology based structure predictions/Journal"
Rackersederj (talk | contribs) (→Modeller) |
Rackersederj (talk | contribs) (→Modeller) |
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mod9.10 1_align_3cc1.py |
mod9.10 1_align_3cc1.py |
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mod9.10 2_Single_template_modeling_3cc1.py |
mod9.10 2_Single_template_modeling_3cc1.py |
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+ | The vizualisation was done with the help of Pymol and the commands listed in [https://www.dropbox.com/s/29lh6pxgxuxgeoi/pymol_single.txt pymol_single.txt] |
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==== Multiple templates ==== |
==== Multiple templates ==== |
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For multiple templates three scripts are needed, which again base on the [[Using_Modeller_for_TASK_4 | tutorial]] and are here again only exemplified for one case: [https://www.dropbox.com/s/llx00q42jiym0zo/3_multiAli_1.py 3_multiAli_1.py], [https://www.dropbox.com/s/mntoiuphufx5fjh/4_add1R46_1.py 4_add1R46_1.py] and [https://www.dropbox.com/s/dz1sgsad1knpe8s/5_multipleMod_1.py 5_multipleMod_1.py] |
For multiple templates three scripts are needed, which again base on the [[Using_Modeller_for_TASK_4 | tutorial]] and are here again only exemplified for one case: [https://www.dropbox.com/s/llx00q42jiym0zo/3_multiAli_1.py 3_multiAli_1.py], [https://www.dropbox.com/s/mntoiuphufx5fjh/4_add1R46_1.py 4_add1R46_1.py] and [https://www.dropbox.com/s/dz1sgsad1knpe8s/5_multipleMod_1.py 5_multipleMod_1.py] |
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mod9.10 5_multipleMod_4.py |
mod9.10 5_multipleMod_4.py |
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+ | The vizualisation was done with the help of Pymol and the commands listed in [https://www.dropbox.com/s/cw4a750gdwe2ae1/pymol_multi.txt pymol_multi.txt] |
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==== Edited Alignment input ==== |
==== Edited Alignment input ==== |
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For the edited alignment models, only the second Modeller script [https://www.dropbox.com/s/p3641etp7ave8rk/2_Single_template_modeling.py.txt 2_Single_template_modeling.py] was needed. Edited alignments were provided as input. We rearranged them with the program [http://molecularevolution.org/software/alignment/seaview SeaView]. |
For the edited alignment models, only the second Modeller script [https://www.dropbox.com/s/p3641etp7ave8rk/2_Single_template_modeling.py.txt 2_Single_template_modeling.py] was needed. Edited alignments were provided as input. We rearranged them with the program [http://molecularevolution.org/software/alignment/seaview SeaView]. |
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#Active Site shifted right to next D (7 and 1) in both ali files + Substrate binding region (203-207) forced to be consecutive |
#Active Site shifted right to next D (7 and 1) in both ali files + Substrate binding region (203-207) forced to be consecutive |
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mod9.10 2_Single_template_modeling_3hg3_changed_actSite_3.py |
mod9.10 2_Single_template_modeling_3hg3_changed_actSite_3.py |
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+ | |||
+ | The vizualisation was done with the help of Pymol and the commands listed in [https://www.dropbox.com/s/zyvy345qj1ysm5d/pymol_changed.txt pymol_changed.txt] |
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=== Swissmodel === |
=== Swissmodel === |
Revision as of 00:53, 23 May 2012
Fabry Disease » Homology based structure predictions » Journal
Contents
Dataset preparation
The homology search was performed online and resulted in the two output files hhpred.out and coma.out for the structure search with HHpred and COMA, respectively. In both cases, we used the default values, thresholds and databases. From both the resulting files we tried in each case to create three distinct datasets with the demanded sequence identity to the target protein with the following calls and scripts.
perl make_dataset_hhpred.pl hhpred.out 0.0000000000000001
This resulted in the HHpred datasets mentioned in Dataset preparation Table 1 and the corresponding pdb structure files.
perl make_dataset_coma.pl coma.out 0.002
This resulted in the Coma datasets mentioned in Dataset preparation Table 2 and the corresponding pdb structure files.
Calculation of models
Modeller
The following steps resulted in 10 models, which can all be downloaded here.
Default settings
For the standard homology modeling with Modeller two basic scripts were used, which build up on the ones described in the recommended tutorial: 1_align.py and 2_Single_template_modeling.py (in this case example file for 1ktb) which need the appropriate template pdb structure files, as well as the target (AGAL) sequence in pir format as input:
>P1;1R46 sequence:1R46:::::::0.00: 0.00 MQLRNPELHLGCALALRFLALVSWDIPGARALDNGLARTPTMGWLHWERFMCNLDCQEEP DSCISEKLFMEMAELMVSEGWKDAGYEYLCIDDCWMAPQRDSEGRLQADPQRFPHGIRQL ANYVHSKGLKLGIYADVGNKTCAGFPGSFGYYDIDAQTFADWGVDLLKFDGCYCDSLENL ADGYKHMSLALNRTGRSIVYSCEWPLYMWPFQKPNYTEIRQYCNHWRNFADIDDSWKSIK SILDWTSFNQERIVDVAGPGGWNDPDMLVIGNFGLSWNQQVTQMALWAIMAAPLFMSNDL RHISPQAKALLQDKDVIAINQDPLGKQGYQLRQGDNFEVWERPLSGLAWAVAMINRQEIG GPRSYTIAVASLGKGVACNPACFITQLLPVKRKLGFYEWTSRLRSHINPTGTVLLQLENT MQMSLKDLL*
The following runs were performed on our home computers:
#3HG3 100% mod9.10 1_align_3hg3.py mod9.10 2_Single_template_modeling_3hg3.py #1KTB 53% mod9.10 1_align.py mod9.10 2_Single_template_modeling.py #3CC1 25% mod9.10 1_align_3cc1.py mod9.10 2_Single_template_modeling_3cc1.py
The vizualisation was done with the help of Pymol and the commands listed in pymol_single.txt
Multiple templates
For multiple templates three scripts are needed, which again base on the tutorial and are here again only exemplified for one case: 3_multiAli_1.py, 4_add1R46_1.py and 5_multipleMod_1.py The following combinations were performed:
#Multiple 3HG3,1KTB mod9.10 3_multiAli_1.py mod9.10 4_add1R46_1.py mod9.10 5_multipleMod_1.py #Multiple 3HG3,1KTB,3CC1 mod9.10 3_multiAli_2.py mod9.10 4_add1R46_2.py mod9.10 5_multipleMod_2.py #Multiple 3CC1, 3ZSS, 3A24 mod9.10 3_multiAli_3.py mod9.10 4_add1R46_3.py mod9.10 5_multipleMod_3.py #Multiple 3CC1, 3HG3 mod9.10 3_multiAli_4.py mod9.10 4_add1R46_4.py mod9.10 5_multipleMod_4.py
The vizualisation was done with the help of Pymol and the commands listed in pymol_multi.txt
Edited Alignment input
For the edited alignment models, only the second Modeller script 2_Single_template_modeling.py was needed. Edited alignments were provided as input. We rearranged them with the program SeaView.
#Active Site shifted right to next D (7 and 1) in -2d.ali mod9.10 2_Single_template_modeling_3hg3_changed_actSite.py #Active Site shifted right to next D (7 and 1) in both ali files mod9.10 2_Single_template_modeling_3hg3_changed_actSite_2.py #Active Site shifted right to next D (7 and 1) in both ali files + Substrate binding region (203-207) forced to be consecutive mod9.10 2_Single_template_modeling_3hg3_changed_actSite_3.py
The vizualisation was done with the help of Pymol and the commands listed in pymol_changed.txt