Team:Chalmers-Gothenburg/Results
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The next step was to fuse together the overlapping fragments. The results of the Fusion PCR are shown in Figure Y. When yeast is transformed with these fragments, homologous recombination should occur which will lead to the exchange of the ''CWP2'' gene with the kanMX cassette. | The next step was to fuse together the overlapping fragments. The results of the Fusion PCR are shown in Figure Y. When yeast is transformed with these fragments, homologous recombination should occur which will lead to the exchange of the ''CWP2'' gene with the kanMX cassette. | ||
- | [[File:Pcr2result.jpg|thumb|600px|A schematic illustration of the second step in the bipartite method. The CWP2 upstream fragment is fused with the 5’ end of the kanMX cassette and the CWP2 downstream fragment will be fused with the 3’ end of the kanMX cassette. B) The result of the Fusion PCR on gel. Two samples (A and B) of each PCR reaction are shown. The expected size of the fusion fragments is 1500 bp which corresponds to the sizes observed on the gel (indicated with an arrow).]] | + | [[File:Pcr2result.jpg|thumb|600px|Figure Y: A schematic illustration of the second step in the bipartite method. The CWP2 upstream fragment is fused with the 5’ end of the kanMX cassette and the CWP2 downstream fragment will be fused with the 3’ end of the kanMX cassette. B) The result of the Fusion PCR on gel. Two samples (A and B) of each PCR reaction are shown. The expected size of the fusion fragments is 1500 bp which corresponds to the sizes observed on the gel (indicated with an arrow).]] |
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Yeast was transformed with 150 ng of each fragment and then let grown on G418 medium. Colony PCR was performed with a forward primer outside of the inserted region and reverse primers within the CWP2 gene or KanMx cassette respectively and the deletion could be confirmed (see Figure Z). | Yeast was transformed with 150 ng of each fragment and then let grown on G418 medium. Colony PCR was performed with a forward primer outside of the inserted region and reverse primers within the CWP2 gene or KanMx cassette respectively and the deletion could be confirmed (see Figure Z). | ||
- | [[File:Testpcr_total.jpg|thumb|600px|A) Schematic illustration of the | + | [[File:Testpcr_total.jpg|thumb|600px|Figure Z:A) Schematic illustration of the colony PCR. A forward primer was designed to bind upstream in the genomic DNA of the 500 bp region that has been used in the construction of the bipartite fragment. Two reverse primers were designed to hybridize within the ''CWP2'' gene and within the kanMX cassette respectively. The primers are indicated with arrows. B) The results of the PCR reactions on gel. In every reaction, the same cwp2-fw primer was used 1: The Δcwp2 deletion strain (A, bipartite), PCR with the kanMX-rev primer. 2: The Δcwp2 deletion strain (B, from deletion library) with the kanMX-rev primer. 3: The Δcwp2 deletion strain (A, bipartite), PCR with the cwp2-rev primer. 4: The Δcwp2 deletion strain (B, from deletion library, PCR) with the cwp2-rev primer. 5. A wild type yeast strain, PCR with the cwp2-rev primer. Since the ''CWP2'' gene is missing and the kanMX cassette is inserted instead, bands are expected when PCR is run with the kanMX-rev primer (1, 2) but no bands should be observed when PCR is performed with the cwp2-rev primer (3, 4). On the contrary, a clear band should be observed when running PCR with the wild type strain and the cwp2-rev primer. This corresponds to the result on the gel which indicates that the deletion was successful.]] |
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Revision as of 19:42, 12 September 2012
Contents |
Results Summary
The gene CWP2, encoding a mannoprotein in the cell wall was successfully deleted in the yeast strain IMFD-73. The deletion was confirmed by verification PCR. In addition, a lyticase assay showed that [IMFD-73 Δcwp2::kanMX] was degraded faster than IMFD-73 and this leads us to the conclusion that the cell wall is somewhat weakened in the strains with the deleted cell wall mannoprotein CWP2.
Two different plasmids both containing the receptor gene LHCGR but one with the human signal peptide and the other one with a yeast signal peptide was created. Both plasmids were successfully cloned into IMFD-73 and [IMFD-73 Δcwp2::kanMX] but in neither strains could the receptor be proved as functional in detection of hCG.
The Indigo group managed to obtain different colour changes in different growth media by introducing a plasmid containing the genes tnaA and fmo. For instance, blue bubbles could be seen in one medium and other media turned into different shades of brown. However, we did not manage to determine which compound or reaction that was responsible for the colourful bubbles or colour changes.
[IMFD-73 Δcwp2::kanMX] was successfully transformed with both receptor genes and genes required for bio-indigo production. However, the system was never functional as a pregnancy test kit since it did not give any significant response in the presence of hCG.
More detailed analysis of the results can be found in the sections below.
Survival of yeast in urine
An initial test was performed in order to test the survival of yeast cells in urine, which is an important property of our biosensor if it should function as a pregnancy test. Pre-cultures of a normal lab yeast strain were prepared in 5ml YPD and let grown O/N at 30 °C. The day after, the cells were centrifuged, resuspended in 40 ml YPD and 40 ml filter sterilized urine respectively and grown in shake flasks at 37°C. OD600 measurements were taken at different points of time during the day, and the values can be seen in Figure 1. The cells in urine did not grow; the OD remained the same during the whole day, while the cells in YPD grew very well.
In order to test if the cells still are alive in the urine medium, 300 µl of each culture (after 4h) were taken and OD was adjusted to 0.5. The samples were diluted 3x, 9x, 27x and 81x and 10 µl aliquots of each dilution were spotted on an YPD plate (Figure 2). The cells from both the YPD and the urine media could grow, this means that the cells survived 4h in urine and grew normal after being spotted on a YPD plate. Summarizing, Yeast cells are unable to bud/divide in the urine medium but survive under these conditions.
Expression of human LH/CG receptor
Introduction of indigo synthesizing genes
Deletion of CWP2 gene
One task of our iGEM project was the deletion of the CWP2 gene, which is encoding a cell wall mannoprotein. By removing it, we aimed for higher cell wall permeability and thus higher chances of our ligand to pass the cell wall and to bind to the membrane-bound receptor. The gene deletion was performed according to the bipartite method. The results from the first PCR reactions, where we amplified the overlapping fragments, can be seen in Figure X.
The next step was to fuse together the overlapping fragments. The results of the Fusion PCR are shown in Figure Y. When yeast is transformed with these fragments, homologous recombination should occur which will lead to the exchange of the CWP2 gene with the kanMX cassette.
Yeast was transformed with 150 ng of each fragment and then let grown on G418 medium. Colony PCR was performed with a forward primer outside of the inserted region and reverse primers within the CWP2 gene or KanMx cassette respectively and the deletion could be confirmed (see Figure Z).