Team:Potsdam Bioware/Biobricks/All Biobricks

From 2012.igem.org

Revision as of 20:08, 26 September 2012 by ChristopherKressler (Talk | contribs)


Contents

All Biobricks

As the project is divided into three subproject, the resulting biobricks are listet in the three categories. Furthermore the Biobricks for the new RFC "Potsdam Standard" are listed.

Antibody Biobricks

Mutation Biobricks

All the Mutation Biobricks are improved/modified versions of the wildtype AID that was available as a Biobrick (BBa_K103001). AID is known to be responsible for somatic hypermutation and the class-switch recombination of immunoglobulin in B cells. This enzyme of 28 kDa originally occurs in B cells but does also show activity after transfection into CHO cells. AID induces the deamination of cytidine to uridine at actively transcribed single strand DNA. The replacement of cytidine by uridine leads to a mismatch during DNA replication and integrates a single base substitution predominantly in the immunoglobulin genes.
Therefore this enzymes was used in our project for diversification of antibodies.With PCR and cloning we developed AID`s for the differnt requirements.


BBa_K929000 AID with CMV promoter and hGH-polyadenylation signal sequence

CMV-promoter & hGH polyadenylationsequence were added to the wildtype AID for strong expression.

BBa_K929001 modified_AID without NES, with NLS and Kozak sequence

To improve the mutation rate the AID was located into the nucleus, because there it mutates transcribed DNA. Therefor an aditional NLS(Nuclear Localization Sequence)was added and the naturally occurring NES(Nuclear Exprot Sequence) was removed.For stronger Expression an Kozak Sequence was added. To fuse modified AID((C-terminal of mod. AID) with RFC 25 parts, we added an AgeI restriction site.

BBa_K929002 modified_AID with CMV and hGH-polyA

For strong expression of the previously described part an CMV-promoter and hGH polyadenylation sequence were added.

BBa_K929004 modified_AID+eGFP

The modified AID was fused with eGFP to check 1.)the tranfection success 2.)the cellular lokalization of the improved AID and 3.) to select transfected cells via FACS.

BBa_K929003modified AID with CMV, hGH-polyA and eGFP

For strong expression of the previously described part an CMV-promoter and hGH polyadenylation sequence were added.

Characterization:

Mutation rate in CHO-cells:

Fig. 2: Comparison of the mutation rates between the wildtype AID, modified AID and modified AID-eGFP

We checked the mutation rate of wildtype AID(BBa_K929000), modified AID(BBa_K929002) and modified AID+eGFP(BBa_K929003) (all expressed with CMV-promoter and hGHpolyA). Therefor we cotransfected CHO cells with a single chain construct and one of the AID versions. After certain expression time we purified the the single chain plasmids and transformed them into E.coli to enrich the mutated plasmids. After overnight culture and purification of the transformed plasmids, samples where sequenced.
There is a significant higher mutation rate when wildtype AID, modified AID or modified AID-eGFP is added, compared to the same experiment without AID. Surprisingly, the mutation rate of wt AID is two times higher than the mutation rate of the modified AID or modified AID-eGFP (Fig. 2). This observation is contrary to our expectation. The modified AID+eGFP is located in the nucleus (Fig. 3), that means our construct works and should have a higher mutation rate. One possible explanation is that the modified AID has a very high mutation rate and therefore the transfected cells die or inactivate the plasmid like it was observed for the wildtype AID (Martin and Scharff (2002)).


Green fluorescence reporter:
The modified AID was fused with eGFP to check 1.)the tranfection success 2.)the cellular lokalization of the improved AID and 3.) to select transfected cells via FACS.

  • Transfection success and cellular localization:
Fig. 3: CHO cells were transfected A)with "modified AID+eGFP" (BBa_K929003)and B)with "modified AID+eGFP" (BBa_K929003) and a mCherry labeled nanobody construct (BBa_K929107)
.

The fluorescence microscope images(Fig. 3) show transfected cells A)with "modified AID+eGFP" (BBa_K929003)and B)with "modified AID+eGFP" (BBa_K929003) and a mCherry labeled nanobody construct (BBa_K929107)]]. "Modified AID+eGFP" (BBa_K929003)proved to be located in the nucleus. This shows that the deletion of the NES(Nuclear Export Sequence) and the addition of an NLS(Nuclear Localization Sequence) leads to an accumulation in the nucleus as it was planed. Therefore we would expect an increased mutation rate with "modified AID+eGFP" but as described above the experimental setup possible can not reflect this. It is also shown that transfected cells(green nucleus, Fig. 3 A&B) can be discriminated from not transfected (grey, Fig. 3). This can be used for a fast selection of transfected cells via FACS. Fig. 3 B shows that "modified AID+eGFP" can be used in combination with an other fluorescence labeld construct (mCherry labeled nanobody construct ,BBa_K929107) and co transfected cells can be easily found or selected via FACS.




Virus Biobricks

Potsdam Standard Biobricks


Retrieved from "http://2012.igem.org/Team:Potsdam_Bioware/Biobricks/All_Biobricks"