Team:TU Darmstadt/modelling/Structure

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<img alt="Problem" src="/wiki/images/6/66/Darmstadt_green_Problem.jpg" width="100" height="30"></a>
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<a href="https://2013.igem.org/Team:TU_Darmstadt/result">
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<a href="https://2013.igem.org/Team:TU_Darmstadt/team">
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While our proteins are functionally described in literature and during the IGEM competition, only part of the structures are available in the protein data bank. For further work and visualizations, protein structures are indispensable. We used Yasara Structure [1]⁠ to calculate 3-dimensional structures of all of our proteins for the IGEM.
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While our proteins are functionally described in literature and during the IGEM competition, only part of the structures are available in the protein data bank. For further work and visualizations, protein structures are indispensable. We used Yasara Structure <span style="color:blue"><sup>[1]</sup></span> to calculate 3-dimensional structures of all of our proteins for the IGEM.
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Description how our Yasara script calculates homology model[7]:
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Description how our Yasara script calculates homology model<span style="color:blue"><sup>[7]</sup></span>:<br>
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<li>Sequence is PSI-BLASTed against Uniprot [2]</li>
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<li>Sequence is PSI-BLASTed against Uniprot <span style="color:blue"><sup>[2]</sup></span></li>
<li>Calculation of a position-specific scoring matrix (PSSM) from related sequences</li>
<li>Calculation of a position-specific scoring matrix (PSSM) from related sequences</li>
<li>Using the PSSM to search the PDB for potential modeling templates</li>
<li>Using the PSSM to search the PDB for potential modeling templates</li>
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<li>The Templates are ranked based on the alignment score and the structural quality[3]⁠</li>
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<li>The Templates are ranked based on the alignment score and the structural quality<span style="color:blue"><sup>[3]</sup></span>⁠</li>
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<li>Deriving additional information’s  for template and target (prediction of secondary structure, structure-based alignment correction by using SSALN scoring matrices [4])⁠.</li>
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<li>Deriving additional information’s  for template and target (prediction of secondary structure, structure-based alignment correction by using SSALN scoring matrices <span style="color:blue"><sup>[4]</sup></span>)⁠.</li>
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<li>A graph of the side-chain rotamer network is built, dead-end elimination is used to find an initial rotamer solution in the context of a simple repulsive energy function [5]⁠</li>
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<li>A graph of the side-chain rotamer network is built, dead-end elimination is used to find an initial rotamer solution in the context of a simple repulsive energy function <span style="color:blue"><sup>[5]⁠</sup></span></li>
<li>The loop-network is optimized using a high amount of different orientations</li>
<li>The loop-network is optimized using a high amount of different orientations</li>
<li>Side-chain rotamers are fine-tuned considering electrostatic and knowledge-based packing interactions as well as solvation effects.</li>
<li>Side-chain rotamers are fine-tuned considering electrostatic and knowledge-based packing interactions as well as solvation effects.</li>
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<li>An unrestrained high-resolution refinement with explicit solvent molecules is run, using the latest knowledge-based force fields[6]⁠.</li>
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<li>An unrestrained high-resolution refinement with explicit solvent molecules is run, using the latest knowledge-based force fields<span style="color:blue"><sup>[6]</Sup></span>⁠.</li>
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All these steps are performed to every template used for the modeling approach. For our project we set the maximum amount of templates to 20. Every derived structure is evaluated using an average per-residue quality Z-scores. At last a hybrid model is built containing the best regions of all predictions. This procedure make prediction’s accurate and thus more realistic. For the evaluation we used the Yasara Z-scores.A Z-score describes how many standard deviations the model quality is away from the average high-resolution X-ray structure. Negative values indicate that the homology model looks worse than a high-resolution X-ray structure. The overall Z-scores for all models have been calculated as the weighted averages of the individual Z-scores using the formula Overall = 0.145*Dihedrals + 0.390*Packing1D + 0.465*Packing3D [7].
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All these steps are performed to every template used for the modeling approach. For our project we set the maximum amount of templates to 20. Every derived structure is evaluated using an average per-residue quality Z-scores. At last a hybrid model is built containing the best regions of all predictions. This procedure make prediction’s accurate and thus more realistic. For the evaluation we used the Yasara Z-scores.A Z-score describes how many standard deviations the model quality is away from the average high-resolution X-ray structure. Negative values indicate that the homology model looks worse than a high-resolution X-ray structure. The overall Z-scores for all models have been calculated as the weighted averages of the individual Z-scores using the formula Overall = 0.145*Dihedrals + 0.390*Packing1D + 0.465*Packing3D <span style="color:blue"><sup>[7]</sup></span>.
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We used the Yasara script hm_build.mcr for the model creation with the following parameters:
We used the Yasara script hm_build.mcr for the model creation with the following parameters:
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<dl class="li" style="margin-right:50px;"> Modeling speed (slow = best): Slow</dl>
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<dl class="li" style="margin-right:50px;">- Modeling speed (slow = best): Slow</dl>
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<dl class="li" style="margin-right:50px;"> Number of PSI-BLAST iterations in template search (PsiBLASTs): 3</dl>
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<dl class="li" style="margin-right:50px;">- Number of PSI-BLAST iterations in template search (PsiBLASTs): 3</dl>
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<dl class="li" style="margin-right:50px;"> Maximum allowed PSI-BLAST E-value to consider template (EValue Max): 0.5</dl>
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<dl class="li" style="margin-right:50px;">- Maximum allowed PSI-BLAST E-value to consider template (EValue Max): 0.5</dl>
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<dl class="li" style="margin-right:50px;">Maximum number of templates to be used (Templates Total): 20</dl>
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<dl class="li" style="margin-right:50px;">- Maximum number of templates to be used (Templates Total): 20</dl>
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<dl class="li" style="margin-right:50px;">Maximum number of templates with same sequence (Templates SameSeq): 1</dl>
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<dl class="li" style="margin-right:50px;">- Maximum number of templates with same sequence (Templates SameSeq): 1</dl>
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<dl class="li" style="margin-right:50px;">Maximum oligomerization state (OligoState): 4 (tetrameric)</dl>
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<dl class="li" style="margin-right:50px;">- Maximum oligomerization state (OligoState): 4 (tetrameric)</dl>
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<dl class="li" style="margin-right:50px;">Maximum number of alignment variations per template: (Alignments): 5</dl>
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<dl class="li" style="margin-right:50px;">- Maximum number of alignment variations per template: (Alignments): 5</dl>
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<dl class="li" style="margin-right:50px;">Maximum number of conformations tried per loop (LoopSamples): 50</dl>
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<dl class="li" style="margin-right:50px;">- Maximum number of conformations tried per loop (LoopSamples): 50</dl>
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<dl class="li" style="margin-right:50px;">Maximum number of residues added to the termini (TermExtension): 10</dl>
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<dl class="li" style="margin-right:50px;">- Maximum number of residues added to the termini (TermExtension): 10</dl>
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We present the best three models from a total of 14 listed in the model ranking and sorted by their overall quality Z-scores.
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Since the target sequence was the only available information, possible templates were identified by running 6 PSI-BLAST iterations to extract a position specific scoring matrix (PSSM) from Uniprot, and then searching the PDB for a match (i.e. hits with an E-value below the homology modeling cutoff 0.5)
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We present the best three models from a total of 14 listed in the model ranking and sorted by their overall quality Z-scores.
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<font size="5" color="#F0F8FF" face="Arial regular">First model LssmOrange</font>  
<font size="5" color="#F0F8FF" face="Arial regular">First model LssmOrange</font>  
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Since the target sequence was the only available information, possible templates were identified by running 6 PSI-BLAST iterations to extract a position specific scoring matrix (PSSM) from Uniprot, and then searching the PDB for a match (i.e. hits with an E-value below the homology modeling cutoff 0.5)
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This model is a monomer, and based on the following sequence alignment:
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<li class=list1><b>SecStr:</b></li>
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<li class=list1 style="max-width:1000px; word-wrap:break-word;"> CCCCCCCCCCCCCCCCEEEEEEEEEEECCEEEEEEEEEEECCCCCEEEEEEEEEECCCCCCCCCHHHCCCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEEEEEEECCCEEEEEEEEEEECCEEEEEEEEEEECCCCCCCCCCCCCCCCCCEEEEEEEECCEEEEEEEEEEEECCCCEEEEEEEEEEECCCCCCCCCCEEEEEEEEEEEECCCCCEEEEEEEEEEECCCCCCCCCCC</li>
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<li class=list1><b>Target:</b></li>
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<li class=list1 style="max-width:1000px; word-wrap:break-word;"> MVSKGEENNMAIIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGFQTVKLKVTKGGPLPFAWDILSPQFTYGSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGMEASSERMYPEDGALKGEDKLRLKLKDGGHYTSEVKTTYKAKKPVQLPGAYIVDIKLDITSHNEDYTIVEQYERAEGRHSTGGMDELYK</li>
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<li class=list1><b>Match:</b></li>
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<li class=list1 style="max-width:1000px; word-wrap:break-word;">        EE:NMAIIKEFMRFK::MEGSVNGHEFEIEGEGEGRPYEG QT:KLKVTKGGPLPFAWDILSPQF  SKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMG EA SERMYPEDGALKGE K|RLKLKDGGHY :EVKTTYKAKKPVQLPGAY :: KLDITSHNEDYTIVEQYER EGRHSTGGMDELYK</li>
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<li class=list1><b>Template:</b></li>
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<li class=list1 style="max-width:1000px; word-wrap:break-word;"> .....EEDNMAIIKEFMRFKTHMEGSVNGHEFEIEGEGEGRPYEGTQTAKLKVTKGGPLPFAWDILSPQF...SKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGWEACSERMYPEDGALKGEMKMRLKLKDGGHYDAEVKTTYKAKKPVQLPGAYNTNTKLDITSHNEDYTIVEQYERNEGRHSTGGMDELYK</li>
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<li class=list1><b>SecStr:</b></li>
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<li class=list1 style="max-width:1000px; word-wrap:break-word;"> ....HHHHHHCCCCCEEEEEEEEEEETTEEEEEEEEEEEETTTEEEEEEEEEEECCCCCCGGGGGGGGG...TTTTCECTTTTCHHHHHHCCCEEEEEEEEEETTEEEEEEEEEEEEETTEEEEEEEEEEECCTTTTCTTTTCCEEEECEEEEEEEETTEEEEEEEEEEEETTEEEEEEEEEEEEEECCCCCCCCCEEEEEEEEEEEEETTTEEEEEEEEEEEECCCCTTTTCCC/li>
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In the alignment, 228 of 236 target residues (96.6%) are aligned to template residues. Among these aligned residues, the sequence identity is 93.0% and the sequence similarity is 94.7% ('similar' means that the BLOSUM62 score is > 0).
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<img alt="lssmOrange" src="/wiki/images/c/c1/LssmOrange_first_activeHelix.png" width="75%" height="75%" align="center">
<img alt="lssmOrange" src="/wiki/images/c/c1/LssmOrange_first_activeHelix.png" width="75%" height="75%" align="center">
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<img alt="mod_qual" src="https://static.igem.org/mediawiki/2013/3/34/Lsso_3ned-a_quality.png" width="800" height="116" >
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<div><img alt="mod_qual" src="https://static.igem.org/mediawiki/2013/3/34/Lsso_3ned-a_quality.png" width="800" height="116" align="center" >
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Here, the first  hybrid homology model of our protein,  
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Here, the hybrid homology model of our protein,  
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LssmOrange
LssmOrange
is shown in ribbon representation. Furthermore, we illustrate the average quality z-score as a function of residue number. Nevertheless, it was subjected to a final round of simulated annealing minimization in explicit solvent and obtained the following quality Z-scores:  
is shown in ribbon representation. Furthermore, we illustrate the average quality z-score as a function of residue number. Nevertheless, it was subjected to a final round of simulated annealing minimization in explicit solvent and obtained the following quality Z-scores:  
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<font size="5" color="#F0F8FF" face="Arial regular">LssmOrange - second modelling</font>  
<font size="5" color="#F0F8FF" face="Arial regular">LssmOrange - second modelling</font>  
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This model is a monomer, and based on the following sequence alignment:
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<li class=list1><b>SecStr:</b></li>
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<li class=list1 style="max-width:1000px; word-wrap:break-word;"> CCCCCCCCCCCCCCCCEEEEEEEEEEECCEEEEEEEEEEECCCCCEEEEEEEEEECCCCCCCCCHHHCCCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEEEEEEECCCEEEEEEEEEEECCEEEEEEEEEEECCCCCCCCCCCCCCCCCCEEEEEEEECCEEEEEEEEEEEECCCCEEEEEEEEEEECCCCCCCCCCEEEEEEEEEEEECCCCCEEEEEEEEEEECCCCCCCCCCC</li>
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<li class=list1><b>Target:</b></li>
 +
<li class=list1 style="max-width:1000px; word-wrap:break-word;"> MVSKGEENNMAIIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGFQTVKLKVTKGGPLPFAWDILSPQFTYGSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGMEASSERMYPEDGALKGEDKLRLKLKDGGHYTSEVKTTYKAKKPVQLPGAYIVDIKLDITSHNEDYTIVEQYERAEGRHSTGGMDELYK<br>Match:            AIIKEFMRFKV:MEGSVNGH FEIEGEGEGRPYEG QT:KLKVTKGGPLPF:WDILSPQF  S:AYVKHPADIPDY:KLSFPEGFKWERVM:FEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMG EA SERMYPEDGALKGE K R:KLKDGGHY :EVKTTYKAKKPVQLPGAY V: KLDITSHNEDYTIVEQYERAEGRHS       
 +
<br><li class=list1><b>Template:</b></li>
 +
<li class=list1 style="max-width:1000px; word-wrap:break-word;"> ..........AIIKEFMRFKVHMEGSVNGHVFEIEGEGEGRPYEGTQTAKLKVTKGGPLPFTWDILSPQF...SNAYVKHPADIPDYFKLSFPEGFKWERVMKFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGWEALSERMYPEDGALKGEVKPRVKLKDGGHYDAEVKTTYKAKKPVQLPGAYNVNRKLDITSHNEDYTIVEQYERAEGRHS.........<br>
 +
<br><li class=list1><b>SecStr:</b></li>
 +
<li class=list1 style="max-width:1000px; word-wrap:break-word;"> ..........CCCCCCEEEEEEEEEEETTEEEEEEEEEEEETTTEEEEEEEEEEECCCCCCCCCCGGGGC...TTTTCECTTTTCHHHHHHCCCEEEEEEEEEETTEEEEEEEEEEEEETTEEEEEEEEEEECCTTTTCTTTTCCEEEECEEEEEEEETTEEEEEEEEEEEETTEEEEEEEEEEEEEECCCCCCCCCEEEEEEEEEEEEETTTEEEEEEEEEEEECC.........</list>
 +
</ol>
 +
</div>
 +
</font></p>
<br>
<br>
-
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+
 
-
<img alt="lssmOrange" src="/wiki/images/9/9d/LssmOrange_second_activeHelix_surface.png" width="75%" height="75%" align="center">
+
<font size="3" color="#F0F8FF" face="Arial regular">
 +
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 +
In the alignment, 214 of 236 target residues (90.7%) are aligned to template residues. Among these aligned residues, the sequence identity is 91.6% and the sequence similarity is 93.0% ('similar' means that the BLOSUM62 score is > 0).
<br>
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 +
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 +
<img alt="mod_qual" src="https://static.igem.org/mediawiki/2013/9/90/Lsso_3kcs-a_quality.png" width="800" height="116" ></div>
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-
<img alt="mod_qual" src="https://static.igem.org/mediawiki/2013/9/90/Lsso_3kcs-a_quality.png" width="800" height="116" >
+
Here, the second hybrid homology model of our protein,
 +
LssmOrange
 +
is shown in ribbon representation. Again, we illustrate the average quality z-score as a function of residue number and obtained the following quality Z-scores: </p></font>
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<font size="5" color="#F0F8FF" face="Arial regular">Third model LssmOrange (dimer)</font>  
<font size="5" color="#F0F8FF" face="Arial regular">Third model LssmOrange (dimer)</font>  
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<img alt="lssmOrange" src="/wiki/images/e/ed/LssmOrange_third_activeHelix_surface_light2.png" width="75%" height="75%" align="center">
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This model is a dimer, add based on the following sequence alignment:
-
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-
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<p text-aligne:left style="margin-left:60px; margin-right:60px"><font size="3" color="#F0F8FF" face="Arial regular">
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 +
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 +
<li class=list1><b>SecStr:</b></li>
 +
<li class=list1 style="max-width:1000px; word-wrap:break-word;">  CCCCCCCCCCCCCCCCEEEEEEEEEEECCEEEEEEEEEEECCCCCEEEEEEEEEECCCCCCCCCHHHCCCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEEEEEEECCCEEEEEEEEEEECCEEEEEEEEEEECCCCCCCCCCCCCCCCCCEEEEEEEECCEEEEEEEEEEEECCCCEEEEEEEEEEECCCCCCCCCCEEEEEEEEEEEECCCCCEEEEEEEEEEECCCCCCCCCCC<br>Target:  MVSKGEENNMAIIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGFQTVKLKVTKGGPLPFAWDILSPQFTYGSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGMEASSERMYPEDGALKGEDKLRLKLKDGGHYTSEVKTTYKAKKPVQLPGAYIVDIKLDITSHNEDYTIVEQYERAEGRHSTGGMDELYK<br>Match:              |IKE M::K: MEG:VN:H:F:  :EGEG|PYEG QT ||KV::GGPLPFA:DIL:      SK:||:H  IPD| K SFPEGF WERV :|EDGGV:T:TQD:SLQDG :IY:VK|RG:NFPS:GPVMQKKT|G EA::E MYP DG:L:G:: | LKL  GGH  ::KTTY|:KKP  |PG:Y VD |L|  :: |  T VEQ|E A :R|          <br>Template:...........LIKENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTQRIKVVEGGPLPFAFDILA......SKTFINHTQGIPDFWKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEANTEMMYPADGGLEGRNYMALKLVGGGHLICSLKTTYRSKKP..MPGVYYVDRRLERIKEADKETYVEQHEVAVARY..........
 +
SecStr:  ...........CCCCCEEEEEEEEEEETTEEEEEEEEEEEETTTEEEEEEEEEEECCCCCCGGGGGG......TTTTCEEETTTCCCTTTTCCCEEEEEEEEEETTEEEEEEEEEEEEETTEEEEEEEEEEECCTTTTCTTTTCCEEEECEEEEEEEETTEEEEEEEEEEEETTEEEEEEEEEEEEEECCG..CCCCEEEEEEEEEEEEETTTEEEEEEEEEEEEC..........
 +
</list>
 +
</ol>
 +
</div>
 +
</font></p>
<br>
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-
<img alt="mod_qual" src="https://static.igem.org/mediawiki/2013/e/ef/Lsso_4kge-~02_quality.png" width="800" height="116" >
+
In the alignment, 207 of 236 target residues (87.7%) are aligned to template residues. Among these aligned residues, the sequence identity is 58.0% and the sequence similarity is 73.9% ('similar' means that the BLOSUM62 score is > 0)
 +
<br><div align="center">
 +
<img align="center" alt="lssmOrange" src="/wiki/images/e/ed/LssmOrange_third_activeHelix_surface_light2.png" width="75%" height="75%" ></div>
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<img alt="mod_qual" src="https://static.igem.org/mediawiki/2013/e/ef/Lsso_4kge-~02_quality.png" width="800" height="116" ></div>
 +
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<br><font size="3" color="#F0F8FF" face="Arial regular">
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<p text-aligne:center style="margin-left:50px; margin-right:50px">
 +
Here, the third hybrid homology model of our protein,
 +
LssmOrange
 +
is shown in ribbon representation. Again, we illustrate the average quality z-score as a function of residue number and obtained the following quality Z-scores:
 +
</p></font>
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<h2><font size="6" color="#F0F8FF" face="Arial regular"> References </font></h2>
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[1] E. Krieger, G. Koraimann, and G. Vriend, “Increasing the precision of comparative models with YASARA NOVA--a self-parameterizing force field.,” Proteins, vol. 47, no. 3, pp. 393–402, 2002.
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E. Krieger, G. Koraimann, and G. Vriend, “Increasing the precision of comparative models with YASARA NOVA--a self-parameterizing force field.,” Proteins, vol. 47, no. 3, pp. 393–402, 2002.
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[2] S. F. Altschul, T. L. Madden, A. A. Schäffer, J. Zhang, Z. Zhang, W. Miller, and D. J. Lipman, “Gapped BLAST and PSI-BLAST: a new generation of protein database search programs.,” Nucleic Acids Res, vol. 25, no. 17, pp. 3389–3402, Sep. 1997.
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S. F. Altschul, T. L. Madden, A. A. Schäffer, J. Zhang, Z. Zhang, W. Miller, and D. J. Lipman, “Gapped BLAST and PSI-BLAST: a new generation of protein database search programs.,” Nucleic Acids Res, vol. 25, no. 17, pp. 3389–3402, Sep. 1997.
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[3] R. W. Hooft, G. Vriend, C. Sander, and E. E. Abola, “Errors in protein structures.,” Nature, vol. 381, no. 6580. Nature Publishing Group, p. 272, 1996.
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R. W. Hooft, G. Vriend, C. Sander, and E. E. Abola, “Errors in protein structures.,” Nature, vol. 381, no. 6580. Nature Publishing Group, p. 272, 1996.
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[4] D. T. Jones, “Protein secondary structure prediction based on position-specific scoring matrices,” Journal of Molecular Biology, vol. 292, no. 2, pp. 195–202, 1999.
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D. T. Jones, “Protein secondary structure prediction based on position-specific scoring matrices,” Journal of Molecular Biology, vol. 292, no. 2, pp. 195–202, 1999.
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[5] A. A. Canutescu, A. A. Shelenkov, and R. L. Dunbrack, “A graph-theory algorithm for rapid protein side-chain prediction.,” Protein Science, vol. 12, no. 9, pp. 2001–2014, 2003.
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A. A. Canutescu, A. A. Shelenkov, and R. L. Dunbrack, “A graph-theory algorithm for rapid protein side-chain prediction.,” Protein Science, vol. 12, no. 9, pp. 2001–2014, 2003.
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[6] E. Krieger, K. Joo, J. Lee, J. Lee, S. Raman, J. Thompson, M. Tyka, D. Baker, and K. Karplus, “Improving physical realism, stereochemistry, and side-chain accuracy in homology modeling: Four approaches that performed well in CASP8.,” Proteins, vol. 77 Suppl 9, no. June, pp. 114–122, 2009.
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E. Krieger, K. Joo, J. Lee, J. Lee, S. Raman, J. Thompson, M. Tyka, D. Baker, and K. Karplus, “Improving physical realism, stereochemistry, and side-chain accuracy in homology modeling: Four approaches that performed well in CASP8.,” Proteins, vol. 77 Suppl 9, no. June, pp. 114–122, 2009.
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[7] http://www.yasara.org/homologymodeling.htm  
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http://www.yasara.org/homologymodeling.htm  
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Latest revision as of 02:34, 5 October 2013







Modelling | Statistics | Structure



Homology Modelling

While our proteins are functionally described in literature and during the IGEM competition, only part of the structures are available in the protein data bank. For further work and visualizations, protein structures are indispensable. We used Yasara Structure [1] to calculate 3-dimensional structures of all of our proteins for the IGEM.





Workflow

Description how our Yasara script calculates homology model[7]:

DKL
  1. Sequence is PSI-BLASTed against Uniprot [2]
  2. Calculation of a position-specific scoring matrix (PSSM) from related sequences
  3. Using the PSSM to search the PDB for potential modeling templates
  4. The Templates are ranked based on the alignment score and the structural quality[3]
  5. Deriving additional information’s for template and target (prediction of secondary structure, structure-based alignment correction by using SSALN scoring matrices [4])⁠.
  6. A graph of the side-chain rotamer network is built, dead-end elimination is used to find an initial rotamer solution in the context of a simple repulsive energy function [5]⁠
  7. The loop-network is optimized using a high amount of different orientations
  8. Side-chain rotamers are fine-tuned considering electrostatic and knowledge-based packing interactions as well as solvation effects.
  9. An unrestrained high-resolution refinement with explicit solvent molecules is run, using the latest knowledge-based force fields[6]⁠.




Application

All these steps are performed to every template used for the modeling approach. For our project we set the maximum amount of templates to 20. Every derived structure is evaluated using an average per-residue quality Z-scores. At last a hybrid model is built containing the best regions of all predictions. This procedure make prediction’s accurate and thus more realistic. For the evaluation we used the Yasara Z-scores.A Z-score describes how many standard deviations the model quality is away from the average high-resolution X-ray structure. Negative values indicate that the homology model looks worse than a high-resolution X-ray structure. The overall Z-scores for all models have been calculated as the weighted averages of the individual Z-scores using the formula Overall = 0.145*Dihedrals + 0.390*Packing1D + 0.465*Packing3D [7].

Parameters
We used the Yasara script hm_build.mcr for the model creation with the following parameters:

    - Modeling speed (slow = best): Slow
    - Number of PSI-BLAST iterations in template search (PsiBLASTs): 3
    - Maximum allowed PSI-BLAST E-value to consider template (EValue Max): 0.5
    - Maximum number of templates to be used (Templates Total): 20
    - Maximum number of templates with same sequence (Templates SameSeq): 1
    - Maximum oligomerization state (OligoState): 4 (tetrameric)
    - Maximum number of alignment variations per template: (Alignments): 5
    - Maximum number of conformations tried per loop (LoopSamples): 50
    - Maximum number of residues added to the termini (TermExtension): 10





Results

Since the target sequence was the only available information, possible templates were identified by running 6 PSI-BLAST iterations to extract a position specific scoring matrix (PSSM) from Uniprot, and then searching the PDB for a match (i.e. hits with an E-value below the homology modeling cutoff 0.5)

We present the best three models from a total of 14 listed in the model ranking and sorted by their overall quality Z-scores.

First model LssmOrange


This model is a monomer, and based on the following sequence alignment:

  1. SecStr:
  2. CCCCCCCCCCCCCCCCEEEEEEEEEEECCEEEEEEEEEEECCCCCEEEEEEEEEECCCCCCCCCHHHCCCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEEEEEEECCCEEEEEEEEEEECCEEEEEEEEEEECCCCCCCCCCCCCCCCCCEEEEEEEECCEEEEEEEEEEEECCCCEEEEEEEEEEECCCCCCCCCCEEEEEEEEEEEECCCCCEEEEEEEEEEECCCCCCCCCCC
  3. Target:
  4. MVSKGEENNMAIIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGFQTVKLKVTKGGPLPFAWDILSPQFTYGSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGMEASSERMYPEDGALKGEDKLRLKLKDGGHYTSEVKTTYKAKKPVQLPGAYIVDIKLDITSHNEDYTIVEQYERAEGRHSTGGMDELYK
  5. Match:
  6. EE:NMAIIKEFMRFK::MEGSVNGHEFEIEGEGEGRPYEG QT:KLKVTKGGPLPFAWDILSPQF SKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMG EA SERMYPEDGALKGE K|RLKLKDGGHY :EVKTTYKAKKPVQLPGAY :: KLDITSHNEDYTIVEQYER EGRHSTGGMDELYK
  7. Template:
  8. .....EEDNMAIIKEFMRFKTHMEGSVNGHEFEIEGEGEGRPYEGTQTAKLKVTKGGPLPFAWDILSPQF...SKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGWEACSERMYPEDGALKGEMKMRLKLKDGGHYDAEVKTTYKAKKPVQLPGAYNTNTKLDITSHNEDYTIVEQYERNEGRHSTGGMDELYK
  9. SecStr:
  10. ....HHHHHHCCCCCEEEEEEEEEEETTEEEEEEEEEEEETTTEEEEEEEEEEECCCCCCGGGGGGGGG...TTTTCECTTTTCHHHHHHCCCEEEEEEEEEETTEEEEEEEEEEEEETTEEEEEEEEEEECCTTTTCTTTTCCEEEECEEEEEEEETTEEEEEEEEEEEETTEEEEEEEEEEEEEECCCCCCCCCEEEEEEEEEEEEETTTEEEEEEEEEEEECCCCTTTTCCC/li>

In the alignment, 228 of 236 target residues (96.6%) are aligned to template residues. Among these aligned residues, the sequence identity is 93.0% and the sequence similarity is 94.7% ('similar' means that the BLOSUM62 score is > 0).

lssmOrange

mod_qual


Here, the first hybrid homology model of our protein, LssmOrange is shown in ribbon representation. Furthermore, we illustrate the average quality z-score as a function of residue number. Nevertheless, it was subjected to a final round of simulated annealing minimization in explicit solvent and obtained the following quality Z-scores:



Check Type Quality Z-score Comment
Dihedrals 2.363 Optimal
Packing 1D -0.864 Good
Packing 3D -1.138 Satisfactory
Overall -0.524 Good


LssmOrange - second modelling


This model is a monomer, and based on the following sequence alignment:

  1. SecStr:
  2. CCCCCCCCCCCCCCCCEEEEEEEEEEECCEEEEEEEEEEECCCCCEEEEEEEEEECCCCCCCCCHHHCCCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEEEEEEECCCEEEEEEEEEEECCEEEEEEEEEEECCCCCCCCCCCCCCCCCCEEEEEEEECCEEEEEEEEEEEECCCCEEEEEEEEEEECCCCCCCCCCEEEEEEEEEEEECCCCCEEEEEEEEEEECCCCCCCCCCC
  3. Target:
  4. MVSKGEENNMAIIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGFQTVKLKVTKGGPLPFAWDILSPQFTYGSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGMEASSERMYPEDGALKGEDKLRLKLKDGGHYTSEVKTTYKAKKPVQLPGAYIVDIKLDITSHNEDYTIVEQYERAEGRHSTGGMDELYK
    Match: AIIKEFMRFKV:MEGSVNGH FEIEGEGEGRPYEG QT:KLKVTKGGPLPF:WDILSPQF S:AYVKHPADIPDY:KLSFPEGFKWERVM:FEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMG EA SERMYPEDGALKGE K R:KLKDGGHY :EVKTTYKAKKPVQLPGAY V: KLDITSHNEDYTIVEQYERAEGRHS
  5. Template:
  6. ..........AIIKEFMRFKVHMEGSVNGHVFEIEGEGEGRPYEGTQTAKLKVTKGGPLPFTWDILSPQF...SNAYVKHPADIPDYFKLSFPEGFKWERVMKFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGWEALSERMYPEDGALKGEVKPRVKLKDGGHYDAEVKTTYKAKKPVQLPGAYNVNRKLDITSHNEDYTIVEQYERAEGRHS.........

  7. SecStr:
  8. ..........CCCCCCEEEEEEEEEEETTEEEEEEEEEEEETTTEEEEEEEEEEECCCCCCCCCCGGGGC...TTTTCECTTTTCHHHHHHCCCEEEEEEEEEETTEEEEEEEEEEEEETTEEEEEEEEEEECCTTTTCTTTTCCEEEECEEEEEEEETTEEEEEEEEEEEETTEEEEEEEEEEEEEECCCCCCCCCEEEEEEEEEEEEETTTEEEEEEEEEEEECC.........


In the alignment, 214 of 236 target residues (90.7%) are aligned to template residues. Among these aligned residues, the sequence identity is 91.6% and the sequence similarity is 93.0% ('similar' means that the BLOSUM62 score is > 0).



lssmOrange


mod_qual


Here, the second hybrid homology model of our protein, LssmOrange is shown in ribbon representation. Again, we illustrate the average quality z-score as a function of residue number and obtained the following quality Z-scores:



Check Type Quality Z-score Comment
Dihedrals 2.125 Optimal
Packing 1D -0.936 Good
Packing 3D -1.259 Satisfactory
Overall -0.642 Good


Third model LssmOrange (dimer)


This model is a dimer, add based on the following sequence alignment:

  1. SecStr:
  2. CCCCCCCCCCCCCCCCEEEEEEEEEEECCEEEEEEEEEEECCCCCEEEEEEEEEECCCCCCCCCHHHCCCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEEEEEEECCCEEEEEEEEEEECCEEEEEEEEEEECCCCCCCCCCCCCCCCCCEEEEEEEECCEEEEEEEEEEEECCCCEEEEEEEEEEECCCCCCCCCCEEEEEEEEEEEECCCCCEEEEEEEEEEECCCCCCCCCCC
    Target: MVSKGEENNMAIIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGFQTVKLKVTKGGPLPFAWDILSPQFTYGSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLRGTNFPSDGPVMQKKTMGMEASSERMYPEDGALKGEDKLRLKLKDGGHYTSEVKTTYKAKKPVQLPGAYIVDIKLDITSHNEDYTIVEQYERAEGRHSTGGMDELYK
    Match: |IKE M::K: MEG:VN:H:F: :EGEG|PYEG QT ||KV::GGPLPFA:DIL: SK:||:H IPD| K SFPEGF WERV :|EDGGV:T:TQD:SLQDG :IY:VK|RG:NFPS:GPVMQKKT|G EA::E MYP DG:L:G:: | LKL GGH ::KTTY|:KKP |PG:Y VD |L| :: | T VEQ|E A :R|
    Template:...........LIKENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTQRIKVVEGGPLPFAFDILA......SKTFINHTQGIPDFWKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEANTEMMYPADGGLEGRNYMALKLVGGGHLICSLKTTYRSKKP..MPGVYYVDRRLERIKEADKETYVEQHEVAVARY.......... SecStr: ...........CCCCCEEEEEEEEEEETTEEEEEEEEEEEETTTEEEEEEEEEEECCCCCCGGGGGG......TTTTCEEETTTCCCTTTTCCCEEEEEEEEEETTEEEEEEEEEEEEETTEEEEEEEEEEECCTTTTCTTTTCCEEEECEEEEEEEETTEEEEEEEEEEEETTEEEEEEEEEEEEEECCG..CCCCEEEEEEEEEEEEETTTEEEEEEEEEEEEC..........


In the alignment, 207 of 236 target residues (87.7%) are aligned to template residues. Among these aligned residues, the sequence identity is 58.0% and the sequence similarity is 73.9% ('similar' means that the BLOSUM62 score is > 0)

lssmOrange


mod_qual


Here, the third hybrid homology model of our protein, LssmOrange is shown in ribbon representation. Again, we illustrate the average quality z-score as a function of residue number and obtained the following quality Z-scores:



Check Type Quality Z-score Comment
Dihedrals 1.237 Optimal
Packing 1D -2.083 Poor
Packing 3D -1.651 Satisfactory
Overall -1.400 Satisfactory




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