It is paramount that the length of the plasmid arms are kept to a minimum length as the longer the arms the more unstable the resulting structure will be. It would also take a longer time to form and would have a lower probability of formation. However if the plasmid arms are kept to the smallest possible size it decreases the likelihood of the correct number of E.coli cells bonding to the ends (we have assumed that the ends of the E.coli are perfect spheres and will bond in the centre- if this is not the case the you will need an extra length to accommodate. We calculated 30% would be the optimum error margin to add). <br> Obviously calculating the plasmid sizes is very important then as it dictates cost and efficiency. The cube construction page explains how this was done.

It is paramount that the length of the plasmid arms are kept to a minimum length as the longer the arms the more unstable the resulting structure will be. It would also take a longer time to form and would have a lower probability of formation. However if the plasmid arms are kept to the smallest possible size it decreases the likelihood of the correct number of E.coli cells bonding to the ends (we have assumed that the ends of the E.coli are perfect spheres and will bond in the centre- if this is not the case the you will need an extra length to accommodate. We calculated 30% would be the optimum error margin to add). <br> Obviously calculating the plasmid sizes is very important then as it dictates cost and efficiency. The cube construction page explains how this was done.

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</p>

<h5 class="sidebartitle">Probability of Formation</h5>

<h5 class="sidebartitle">Probability of Formation</h5>

<p style="float: left;"><img src="https://static.igem.org/mediawiki/2015/9/9f/WarwickTableofprob.png" height="200px" width="200px" border="1px"></p>

<p style="float: left;"><img src="https://static.igem.org/mediawiki/2015/9/9f/WarwickTableofprob.png" height="200px" width="200px" border="1px"></p>

As you can see the probability of a structure fully forming decreases exponentially as the complexity increases. However, even though for larger number of arms there is a very high chance of a structure forming it is unlikely for all the arms to form. Therefore, for our experiments it would be better to focus on using structures with fewer number of arms to save time and money.

As you can see the probability of a structure fully forming decreases exponentially as the complexity increases. However, even though for larger number of arms there is a very high chance of a structure forming it is unlikely for all the arms to form. Therefore, for our experiments it would be better to focus on using structures with fewer number of arms to save time and money.

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