Difference between revisions of "Part:BBa K1976052"

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         <h1>Colicin E2 DNase domain and immunity protein Im2 generator with anderson promoters</h1>
 
         <h1>Colicin E2 DNase domain and immunity protein Im2 generator with anderson promoters</h1>
  
Generator of colicin E2 DNase domain <a href="https://parts.igem.org/Part:BBa_K197604">BBa_K1976048</a> and immunity protein Im2 <a href="https://parts.igem.org/Part:BBa_K1976026">BBa_K1976026</a>.
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This parts contains the sequences encoding for the colicin E2 DNase fragment <a href="https://parts.igem.org/Part:BBa_K197604">BBa_K1976048</a> and the immunity protein Im2 <a href="https://parts.igem.org/Part:BBa_K1976026">BBa_K1976026</a> both under the controle of anderson promoters.
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This part can be used to produce colicin without killing the host cell, as the immunity protein is produced more than equimolar to the DNase fragment. If BBa_K1976028 is used instead of BBa_K1976027, it can function as a <i>amber</i>-suppression inducible killswitch.
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Safety is an important aspect in the synthetic biology on one hand to prevent the  transfer of recombinant DNA to natural organisms but on the other hand it is necessary for companies to enable copy protection of the  DNA of their GMO. This part units these points using a new safety mechanism. The DNase fragment of colicin E2 wich enables DNA degradation is inhibited by its immunity protein Im2 wich can only be synthesized under the presence of a non-natural amino acid (nnAA). Cells transformed with this part need a constant addition of the nnAA to survive. If they leave the laboratory environment, the immunity protein will not be synthesized due to the lack of the nnAA and the DNase will degradate the DNA so the genomic information will be lost.  
  
 
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        <table>
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The DNase fragment of colicin E2 has a molecular weight of 15.2 kDa and consists of 133 residues what comform to about one third to colicin. We used only one of the three domains of colicin since the metabolic burdon would be significant smaller. The activity tests showed that the so called miniColicin has functional DNase activity. The immunity protein has a molecular weight of 10.0 kDa and the modeling of the binding to miniColicin predicted a very strong binding.  
            <colgroup width=55% span="4">
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            <tr>
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                <td>
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                    <b>Molecular Weight</b>
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                </td>
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                <td>
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                    Colicin E2 Dnase domain
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                    <br>15.2 kDa<br>
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                    Immunity Protein
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                    <br>10.0 kDa<br>
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                </td>
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            </tr>
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            <tr>
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                <td>
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                    <b>Residues</b>
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                </td>
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                <td>
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                    Colicin E2 Dnase domain:<br>
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                    133<br>
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                    Im2 immunity protein:<br>
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                    86
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                </td>
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            </tr>
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<tr>
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                <td>
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                    <b>pI</b>
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                </td>
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                <td>
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                    Colicin E2 Dnase domain:
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                    <br>9.06<br>
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                    Immunity Protein:
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                    <br>4.66<br>
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                </td>
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            </tr>
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            <tr>
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                <td>
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                    [Data taken created in Snapgene and http://isoelectric.ovh.org/calculate.php]
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                </td>
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            </tr>
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            </colgroup>
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        </table>
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Revision as of 02:46, 28 October 2016

Colicin E2 DNase domain and immunity protein Im2 generator with anderson promoters

This parts contains the sequences encoding for the colicin E2 DNase fragment BBa_K1976048 and the immunity protein Im2 BBa_K1976026 both under the controle of anderson promoters.

Figure 1: The structure of the Im2 immunity protein and Colicin E2 in a complex.


Usage

Safety is an important aspect in the synthetic biology on one hand to prevent the transfer of recombinant DNA to natural organisms but on the other hand it is necessary for companies to enable copy protection of the DNA of their GMO. This part units these points using a new safety mechanism. The DNase fragment of colicin E2 wich enables DNA degradation is inhibited by its immunity protein Im2 wich can only be synthesized under the presence of a non-natural amino acid (nnAA). Cells transformed with this part need a constant addition of the nnAA to survive. If they leave the laboratory environment, the immunity protein will not be synthesized due to the lack of the nnAA and the DNase will degradate the DNA so the genomic information will be lost.

Characteristics


Figure 2: SDS-PAGE of the Colicin E2 DNase domain, the blue arrow marks the band of the expression. From left to right: Top10 E. coli, Top10 E. coli transformed with BBa_K1976052 and Top10 E. coli transformed with BBa_K1976053.


Figure 3: 1% agarose gel electrophoresis, stained with HD-green. The protein product from this part was cleaned up and used in different concentrations to test its activity. From left to right: pSB1C3 alone, pSB1C3 in the lysate buffer 1x, pSB1C3 in the lysate buffer 3x, pSB1C3 incubated with lysate of Top10 transformed with BBa_K1976052 1x, pSB1C3 incubated with lysate of Top10 transformed with BBa_K1976052 3x, pSB1C3 incubated with lysate of Top10 transformed with BBa_K1976053 1x, pSB1C3 incubated with lysate of Top10 transformed with BBa_K1976053 3x.


The DNase fragment of colicin E2 has a molecular weight of 15.2 kDa and consists of 133 residues what comform to about one third to colicin. We used only one of the three domains of colicin since the metabolic burdon would be significant smaller. The activity tests showed that the so called miniColicin has functional DNase activity. The immunity protein has a molecular weight of 10.0 kDa and the modeling of the binding to miniColicin predicted a very strong binding.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal NheI site found at 7
    Illegal NheI site found at 30
    Illegal NheI site found at 477
    Illegal NheI site found at 500
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BglII site found at 681
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal AgeI site found at 89
  • 1000
    COMPATIBLE WITH RFC[1000]


[1] Cascales et al, Colicin Biology, Microbiology and Molecular Biology Reviews, vol. 71, pp. 158-229, 2007