Difference between revisions of "Part:BBa K1603001"
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<partinfo>BBa_K1603001 parameters</partinfo> | <partinfo>BBa_K1603001 parameters</partinfo> | ||
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+ | <p>To analyze the effect in expression levels of serially connecting these two promoters, pTEF1-pSUC2 was connected to mRFP and transformed into the genome of ''S.cerevisiae''. | ||
+ | |||
+ | The first sample of TEFSUC, SUC and WT was cultivated for 2 hours in YPD. The results from fluorescent microscopy are shown in figure 1-3.</p> | ||
+ | [[File:ChalmersGothenburgTEFSUC2h.jpg|350px]] | ||
+ | <br><b>Figure 1. TEFSUC sample 1 cultivated for 2 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b> | ||
+ | <p>[[File:ChalmersGothenburgSUC2h.jpg|350px]] | ||
+ | <br><b>Figure 2. SUC sample 1 cultivated for 2 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>[[File:ChalmersGothenburgWT2h.jpg|350px]] | ||
+ | <br><b>Figure 3. WT sample 1 cultivated for 2 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>3 hours of cultivation in YPD (after overnight preculture) gives no visible RFP fluorescence. A reason for this could be that 2 hours is not enough to give a significant drop in energy levels to relieve the repression of pSUC2.</p> | ||
+ | <p>A new sample of TEFSUC, SUC and WT was cultivated for 6 hours in YPD. The results from fluorescent microscopy are shown in figure 4-6.</p> | ||
+ | <p>[[File:ChalmersGothenburgTEFSUC6h.jpg|350px]] | ||
+ | <br><b>Figure 4. TEFSUC sample 2 cultivated for 6 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>[[File:ChalmersGothenburgSUC6h.jpg|350px]] | ||
+ | <br><b>Figure 5. SUC sample 2 cultivated for 6 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>[[File:ChalmersGothenburgWT6h.jpg|350px]] | ||
+ | <br><b>Figure 6. WT sample 2 cultivated for 6 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>Now there is a clear difference between TEFSUC and SUC. TEFSUC gives several highly fluorescent cells while SUC only shows slightly higher fluorescent compared to WT. This indicates that the repression of pSUC2 is reduced which allows expression of mRFP through the high expression promoter pTEF1. </p> | ||
+ | <p>Another fluorescence measurement was performed on the same sample after 23 hours of cultivation. | ||
+ | The results from fluorescent microscopy are shown in figure 7-9.</p> | ||
+ | <p>[[File:ChalmersGothenburgTEFSUC23h.jpg|350px]] | ||
+ | <br><b>Figure 7. TEFSUC sample 2 cultivated for 23 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>[[File:ChalmersGothenburgSUC23h.jpg|350px]] | ||
+ | <br><b>Figure 8. SUC sample 2 cultivated for 23 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>[[File:ChalmersGothenburgWT23h.jpg|350px]] | ||
+ | <br><b>Figure 9. WT sample 2 cultivated for 23 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.</b></p> | ||
+ | <p>This demonstrates that the concept of serially could work, but further evaluation could include measuring of fluorescent levels to determine the actual difference in expression rates.</p> |
Revision as of 18:16, 18 September 2015
pTEF1-pSUC2
The high expression pTEF1 promoter connected to pSUC2 promoter. Can be used for induced high expression of any coding part in Saccharomyces cerevisiae at low ATP levels.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI.rc site found at 167
To analyze the effect in expression levels of serially connecting these two promoters, pTEF1-pSUC2 was connected to mRFP and transformed into the genome of S.cerevisiae. The first sample of TEFSUC, SUC and WT was cultivated for 2 hours in YPD. The results from fluorescent microscopy are shown in figure 1-3.
Figure 1. TEFSUC sample 1 cultivated for 2 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Figure 2. SUC sample 1 cultivated for 2 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Figure 3. WT sample 1 cultivated for 2 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
3 hours of cultivation in YPD (after overnight preculture) gives no visible RFP fluorescence. A reason for this could be that 2 hours is not enough to give a significant drop in energy levels to relieve the repression of pSUC2.
A new sample of TEFSUC, SUC and WT was cultivated for 6 hours in YPD. The results from fluorescent microscopy are shown in figure 4-6.
Figure 4. TEFSUC sample 2 cultivated for 6 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Figure 5. SUC sample 2 cultivated for 6 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Figure 6. WT sample 2 cultivated for 6 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Now there is a clear difference between TEFSUC and SUC. TEFSUC gives several highly fluorescent cells while SUC only shows slightly higher fluorescent compared to WT. This indicates that the repression of pSUC2 is reduced which allows expression of mRFP through the high expression promoter pTEF1.
Another fluorescence measurement was performed on the same sample after 23 hours of cultivation. The results from fluorescent microscopy are shown in figure 7-9.
Figure 7. TEFSUC sample 2 cultivated for 23 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Figure 8. SUC sample 2 cultivated for 23 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
Figure 9. WT sample 2 cultivated for 23 hours. Left: overlay channels (bright field, RFP and GFP). Right: RFP channel.
This demonstrates that the concept of serially could work, but further evaluation could include measuring of fluorescent levels to determine the actual difference in expression rates.