Team:Manchester/Enzyme

From 2013.igem.org

(Difference between revisions)
Line 463: Line 463:
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
</p>
</p>
-
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="640"/>
+
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
 +
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.
 +
</b></p>
 +
          </div>
 +
 
 +
<div class="text3">
 +
            <p><b><a id="Q5">To His-tag or not to His-tag</a></b><br>
 +
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to.  The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction<sup>[6]</sup>. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein<sup>[4][5][6]</sup>. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (<a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1027003" target="_blank">BBa_K1027003</a>) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.
 +
</p>
 +
<img src="https://static.igem.org/mediawiki/2013/9/9e/Fabafig5.png" width="900" height="300"/>
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.  
<p id="footer"><b>Figure 5. Overlay of structures from 1 ns βHACdH simulation. Images of overlaid from the following respective time points: 0 ps, 250 ps, 500 ps, 750 ps and 1000 ps with the following colours indicating each individual image: Green, Blue, Purple, Orange and Grey, respectively.  Both the N-Terminal and C-Terminal, are specified (Dotted Box), with a zoom in on each respective terminal at an angle appropriate to visualise the positions of the terminals.  
</b></p>
</b></p>

Revision as of 23:59, 4 October 2013

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Safety

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

To His-tag or not to His-tag
Now that βHACdH is ready to undergo simulations, we ran a simulation for 1 ns under the notion that we would be able to visualize motions around the N- and C-Terminals during the course of the simulation and therefore determine, which terminal would be more appropriate to add His-tags to. The conclusion for our simulation was that the N-Terminal is ideal for the addition of His-tags for several reasons. Firstly, the C-terminal is localized in close vicinity to the interaction domain of the βHACdH homodimer, therefore the addition of His-tags could possibly interfere with the dimer interaction[6]. Our model also shows that the C-terminal is more dynamic compared to the N-terminal and there are several times in the simulation that the C-terminal interacts with the dimerization domain and may interfere with the folding and function of the protein[4][5][6]. Therefore we concluded that the N-terminal would be ideal to add the His-tags to, as the N-terminal is less dynamic and will be less likely to interfere with folding and the protein function. With this in mind, our experimental team began to design the His-tagged FabA BioBrick (BBa_K1027003) to express a N-Terminal His-tagged βHACdH to use in the characterisation of βHACdH overexpression.

MODELLING
UNCERTAINTY ANALYSIS
FabA PROTEIN MODEL
POPULATION DYNAMICS
MODELLING COLLABORATION
Introduction
Installing GROMACS
Behind the scenes of a Molecular Dynamics Simulation
Getting a working GROMACS simulation for βHACdH
To His-tag or not to His-tag

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