Difference between revisions of "Task 5: Homology Modeling"
From Bioinformatikpedia
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| − | [[lab journal task 5]] |
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| − | 1A6Z chain A was used as modeling target for all three methods. |
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| − | ==Modeller== |
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| − | We used Modeller to create models based on a single template and multiple templates. |
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=== Single template === |
=== Single template === |
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<xr id="Modeller single"/> lists the selected templates and the Modeller results for the different template structures and alignment methods. In addition to the standard pairwise sequence alignment based on dynamic programming, we also used Modeller's alignment.alig2dn() method to improve the alignment by including secondary structure information and improved the alignments manually. The RMSD and TM score are given for all models. The TM score ranges in the interval of (0, 1]. A value below 0.17 indicates a random similarity and a TM score above 0.5 corresponds to two structures with the same fold in CATH or SCOP (see [http://zhanglab.ccmb.med.umich.edu/TM-score/ TM score]). |
<xr id="Modeller single"/> lists the selected templates and the Modeller results for the different template structures and alignment methods. In addition to the standard pairwise sequence alignment based on dynamic programming, we also used Modeller's alignment.alig2dn() method to improve the alignment by including secondary structure information and improved the alignments manually. The RMSD and TM score are given for all models. The TM score ranges in the interval of (0, 1]. A value below 0.17 indicates a random similarity and a TM score above 0.5 corresponds to two structures with the same fold in CATH or SCOP (see [http://zhanglab.ccmb.med.umich.edu/TM-score/ TM score]). |
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Including the secondary structure information did only improve the model of the most distant homolog 1CD1_A. |
Including the secondary structure information did only improve the model of the most distant homolog 1CD1_A. |
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<figtable id="pymol str. al."> |
<figtable id="pymol str. al."> |
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| + | {| align="center" |
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| − | {| class="wikitable" align="center" style="margin: 1em 0 0 0; border: 1px solid black;" cellpadding="0" |
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| − | | align="center" | [[File:1qvo_std.png|thumb|200px| classical pairwise sequence alignment]] |
+ | | align="center" | [[File:1qvo_std.png|thumb|200px|'''a)''' classical pairwise sequence alignment]] |
| − | | align="center" | [[File:1qvo_2d.png|thumb|200px| inclusion of secondary structure information in the alignment ]] |
+ | | align="center" | [[File:1qvo_2d.png|thumb|200px|'''b)''' inclusion of secondary structure information in the alignment ]] |
|+ style="caption-side: bottom; text-align: left" |<font size=1.5>'''Figure 1:'''Superposition of the target 1A6Z_A (green), the template 1QVO_A (red) and the model (purple). Two different alignment methods were used to create the input alignment. for Modeller. |
|+ style="caption-side: bottom; text-align: left" |<font size=1.5>'''Figure 1:'''Superposition of the target 1A6Z_A (green), the template 1QVO_A (red) and the model (purple). Two different alignment methods were used to create the input alignment. for Modeller. |
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<figtable id="pymol str. al."> |
<figtable id="pymol str. al."> |
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| + | {| align="center" |
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| − | {| class="wikitable" align="center" style="float: center; margin: 1em 0 0 0; border: 1px solid black;" cellpadding="0" |
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| − | | align="center" | [[File:1s7x_std.png|thumb|200px| classical pairwise sequence alignment]] |
+ | | align="center" | [[File:1s7x_std.png|thumb|200px|'''a)''' classical pairwise sequence alignment]] |
| − | | align="center" | [[File:1s7x_2d.png|thumb|200px| inclusion of secondary structure information in the alignment ]] |
+ | | align="center" | [[File:1s7x_2d.png|thumb|200px| '''b)''' inclusion of secondary structure information in the alignment ]] |
|+ style="caption-side: bottom; text-align: left" |<font size=1.5>'''Figure 2:'''Superposition of the target 1A6Z_A (green), the template 1S7X_A (red) and the model (purple). Two different alignment methods were used to create the input alignment. for Modeller. |
|+ style="caption-side: bottom; text-align: left" |<font size=1.5>'''Figure 2:'''Superposition of the target 1A6Z_A (green), the template 1S7X_A (red) and the model (purple). Two different alignment methods were used to create the input alignment. for Modeller. |
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</figtable> |
</figtable> |
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| − | |||
<figtable id="pymol str. al."> |
<figtable id="pymol str. al."> |
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| + | {| align="center" |
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| − | {| class="wikitable" style="margin: 1em 0 0 0; border: 1px solid black;" cellpadding="0" |
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| − | | align="center" | [[File:1cd1_std.png|thumb|200px|classical pairwise sequence alignment ]] |
+ | | align="center" | [[File:1cd1_std.png|thumb|200px|'''a)''' classical pairwise sequence alignment ]] |
| − | | align="center" | [[File:1cd1_2d.png|thumb|200px|inclusion of secondary structure information in the alignment ]] |
+ | | align="center" | [[File:1cd1_2d.png|thumb|200px|'''b)''' inclusion of secondary structure information in the alignment ]] |
| − | |+ style="caption-side: bottom; text-align: left" |<font size=1.5>''' |
+ | |+ style="caption-side: bottom; text-align: left" |<font size=1.5>'''Figure 3:'''Superposition of the target 1A6Z_A (green), the template 1CD1_A (red) and the model (purple). Two different alignment methods were used to create the input alignment. for Modeller.|} |
</figtable> |
</figtable> |
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|1QVO_A 0.39 |
|1QVO_A 0.39 |
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| − | ==Swiss-Modell== |
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| − | ==I-TASSER== |
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Revision as of 23:46, 25 August 2013
Single template
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<figtable id="Modeller single">
| Template | Seq. identity | std Alignment | 2d alignment | curated Alignment | |||
|---|---|---|---|---|---|---|---|
| TM score | RMSD | TM score | RMSD | TM score | RMSD | ||
| 1QVO_A | 39% | 0.6241 | 3.647 | 0.5653 | 4.994 | ||
| 1S7X_A | 29% | 0.3355 | 15.806 | 0.2509 | 18.099 | ||
| 1CD1_A | 21% | 0.3640 | 18.066 | 0.4697 | 5.640 | ||
</figtable>
<xr id="Modeller single"/> lists the selected templates and the Modeller results for the different template structures and alignment methods. In addition to the standard pairwise sequence alignment based on dynamic programming, we also used Modeller's alignment.alig2dn() method to improve the alignment by including secondary structure information and improved the alignments manually. The RMSD and TM score are given for all models. The TM score ranges in the interval of (0, 1]. A value below 0.17 indicates a random similarity and a TM score above 0.5 corresponds to two structures with the same fold in CATH or SCOP (see TM score). Including the secondary structure information did only improve the model of the most distant homolog 1CD1_A.
<figtable id="pymol str. al.">
</figtable>
<figtable id="pymol str. al.">
</figtable>
<figtable id="pymol str. al.">
| "close" homology | |
| 1rjz_D | 0.34 |
| 1zag_A | 0.36 |
| 1QVO_A | 0.39 |
| distant homology: | |
| 3huj_C | 0.23 |
| 1cd1_A | 0.21 |
| 1VZY_A | 0.14 |
| MIX: |
| 1cd1_A 0.21 |
| 1QVO_A 0.39 |
