Team:BostonU/MoClo2

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<h3><b>Figure 4:</b> Level 2 Part Generation Simplified. This figure illustrates how Level 2 MoClo parts are generated from Level 1 parts with a focus on the 4-bp fusion sites shown in circles labeled A-H. The BpiI and BsaI sites are not shown.</h3>
<h3><b>Figure 4:</b> Level 2 Part Generation Simplified. This figure illustrates how Level 2 MoClo parts are generated from Level 1 parts with a focus on the 4-bp fusion sites shown in circles labeled A-H. The BpiI and BsaI sites are not shown.</h3>
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Revision as of 03:37, 4 October 2012

BostonU iGEM Team: Welcome


Modular Cloning




An Introduction to MoClo

    Modular Cloning, or MoClo, is a relatively new assembly method introduced in 2011 by Ernst Weber et al., whereby using Type IIS restriction sites allows the user to ligate up to six DNA parts together in a one-pot reaction. It is a method based on Golden Gate Assembly. Type IIS restriction enzymes cleave outside of their recognition site to one side, thus allowing for removal of those restriction sites when used properly. This helps eliminate excess base pairs, or scars, from forming between DNA Parts. However, in order to ligate together properly, MoClo utilizes a set of 4-bp fusion sites, which remain behind after ligation and thus generate 4-bp scars between DNA parts in the final DNA sequence following ligation of two or more parts.


MoClo Parts

    The MoClo system has three levels of assembly.

    Level 0: Basic DNA Parts (ex: promoter, gene, etc.) are PCR amplified and cloned into MoClo destination vectors to form Level 0 Parts. The DNA parts within these Level 0 Parts are flanked by BsaI sites and two different 4pb-fusion sites.



    Figure 1: Generation of MoClo Fusion Sites using Type IIS Restriction Enzymes. The orange DNA sequence indicates the BpiI restriction site, the blue DNA sequence indicates the 4-bp MoClo fusion sites, and the bracketed names indicate either GFP and LacZ gene sequences. The black arrows over the orange DNA sequence indicates the BpiI direction, which impacts how the enzyme will cut the double stranded DNA sequence.


    Figure 1 shows how the Type IIS enzyme BpiI (yellow blocks in Figures 1 and 2) is used to generate Level 0 Parts using MoClo. Type IIS restriction enzymes recognize their site and then cut outside of it. BpiI (and BsaI shown as purple blocks in Figures 1 and 2) both leave 4bp overhangs behind after cutting (Figure 1). We refer to the 4bp overhangs as fusion sites and based our designs on the original fusion sites described by Weber et al., 2011. The orientation of BpiI and BsaI for the parts being ligated into the destination vectors face inwards while the BpiI and BsaI orientation is the opposite in the destination vector. This direction is shown in Figure 1 as the black arrows above the yellow BpiI blocks. This orientation guarantees that the BpiI sites are removed in the ligated Level 0 Part(Figure 1). The BsaI sites are likewise removed from Level 1 Parts (Figure 2).

    Level 1: Up to six Level 0 Parts are ligated together to form Level 1 Parts. In our lab, Level 1 Parts most often result in complete transcriptional units (ex: promoter-RBS-gene-terminator). Level 1 Parts are flanked by BpiI sites (shown as yellow blocks in Figure 2) and two different 4pb-fusion sites.



    Figure 2: Generation of Level 0 and Level 1 MoClo Parts. PCR products are cloned into Level 0 destination vectors using the one-pot MoClo reaction with BpiI as the restriction enzyme. Level 1 composite parts are then made by mixing all four Level 0 parts together with a Level 1 destination vector and carrying out the MoClo reaction with BsaI as the restriction enzyme. Along with blue/white screening, chloramphenicol (CamR) is used to select Level 0 and kanamycin (KanR) is used to select Level 1 colonies.



    Level 2: Up to six Level 1 Parts are ligated together to form Level 2 Parts. More complex circuits, such as an inverter or NOR gate, can be built using Level 2 Parts. Like Level 0 Parts, Level 2 Parts are flanked by BsaI sites and two different 4pb-fusion sites.


MoClo Simplified

    A more simplified way to look at MoClo is to focus on the fusion sites. To make this easier, we labeled our 4bp fusion sites A-H. This also allows for easier generation of images by removing the backbone and restriction site information.



    Figure 3: Levels 0 and 1 MoClo Part Generation Simplified. This figure illustrates how Level 0 and Level 1 MoClo parts are generated with a focus on the 4-bp fusion sites shown in circles labeled A-H. The BpiI and BsaI sites are not shown.



    Figure 4: Level 2 Part Generation Simplified. This figure illustrates how Level 2 MoClo parts are generated from Level 1 parts with a focus on the 4-bp fusion sites shown in circles labeled A-H. The BpiI and BsaI sites are not shown.


Our MoClo Contribution to iGEM

    MoClo is a highly modular cloning system that we think would greatly improve the efficiency of genetic circuit generation for iGEM teams. We have designed our MoClo parts for easy, 4-way assembly of transcriptional units. In order to achieve this, our promoters are flanked by either A-B, E-B, F-B, or G-B fusion sites; our ribosomal binding sites are flanked by B-C fusion sites; our genes are flanked by C-D fusion sites; and our terminators are flanked by either D-E, D-F, D-G, or D-H fusion sites (Figure 4). By promoting this 4-way assembly, we have increased the usability of this system by keeping the number of destination vectors needed low and the PCR design stage is also simplified for the RBS and genes parts.

    We have submitted a MoClo kit of parts to the Registry so future iGEM teams can take advantage of this easy, efficient system. It is also our hope that future iGEM teams will help build upon this first attempt at generating a library of standard biological parts for the MoClo system.


    References
    [1] Weber et al. "A Modular Cloning System..." PLoS One 6(2) 2011