Difference between revisions of "Part:BBa K4181014"
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===Usage and Biology=== | ===Usage and Biology=== | ||
<p>The melanin-binding-peptide 4B4 is an oligopeptide with only 10 amino acids, and according to the procedures mentioned above, we had added the flag-tag to it for verification. As another peptide on the spore surface, we chose the immunofluorescence assay similar to the ones done on tyrosinase. Anti-flag antibody coupled with PE-CY7 was used and we observe the results both from phase contract/ fluorescecnce microscopy and the flow cytometer. The excitation light is at 562nm and the emitted light is 770nm, so theoritically, red dots could be recognized if there were 4B4 expression on the surface. The microscope we used only got the excitation wave length for RFP, which is 532nm. Given that there must be a error band for the real wave length, we determined to have a try using 532nm light as the excitation light of CY7. The results of immunofluorescence is as below.</p> | <p>The melanin-binding-peptide 4B4 is an oligopeptide with only 10 amino acids, and according to the procedures mentioned above, we had added the flag-tag to it for verification. As another peptide on the spore surface, we chose the immunofluorescence assay similar to the ones done on tyrosinase. Anti-flag antibody coupled with PE-CY7 was used and we observe the results both from phase contract/ fluorescecnce microscopy and the flow cytometer. The excitation light is at 562nm and the emitted light is 770nm, so theoritically, red dots could be recognized if there were 4B4 expression on the surface. The microscope we used only got the excitation wave length for RFP, which is 532nm. Given that there must be a error band for the real wave length, we determined to have a try using 532nm light as the excitation light of CY7. The results of immunofluorescence is as below.</p> | ||
+ | <p style="text-align: center;"> | ||
[[File:2022-SJTU-Biox-Shanghai-1.png|500px|center]]<br> | [[File:2022-SJTU-Biox-Shanghai-1.png|500px|center]]<br> | ||
'''Figure 1.''' Electrophoresis results after PCR of cotE and the first PCR electrophoresis results of cotB. The picture indicates a positive result.<br> | '''Figure 1.''' Electrophoresis results after PCR of cotE and the first PCR electrophoresis results of cotB. The picture indicates a positive result.<br> | ||
<p>Next, PCR the cotB gene sequence again, and add 4B4 melanin-binding peptide and the stop codon to the 3' end of this sequence by designing your primers for this PCR.</p> | <p>Next, PCR the cotB gene sequence again, and add 4B4 melanin-binding peptide and the stop codon to the 3' end of this sequence by designing your primers for this PCR.</p> | ||
+ | <p style="text-align: center;"> | ||
[[File:2022-SJTU-Biox-Shanghai-2.png|500px|center]]<br> | [[File:2022-SJTU-Biox-Shanghai-2.png|500px|center]]<br> | ||
'''Figure 2.''' Electrophoresis results of cotB after the second PCR and Dsup-encoded gene after PCR. The picture indicates a positive result.<br> | '''Figure 2.''' Electrophoresis results of cotB after the second PCR and Dsup-encoded gene after PCR. The picture indicates a positive result.<br> | ||
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===Characterization=== | ===Characterization=== | ||
<p>cotE and cotB proteins are closely related to tyrosinase activity.Tyrosinase and the melanin-binding-peptide were the next to be demonstrated because of their display on the spore surface, and the process of sporulation has been mentioned above. Because there was his-tag linking with our tyrosinase protein, we decided to use immunofluorescence to detect it. The following is the result of our immunofluorescence test:</p> | <p>cotE and cotB proteins are closely related to tyrosinase activity.Tyrosinase and the melanin-binding-peptide were the next to be demonstrated because of their display on the spore surface, and the process of sporulation has been mentioned above. Because there was his-tag linking with our tyrosinase protein, we decided to use immunofluorescence to detect it. The following is the result of our immunofluorescence test:</p> | ||
+ | <p style="text-align: center;"> | ||
[[File:2022-SJTU-Biox-Shanghai-3.png|500px|center]]<br> | [[File:2022-SJTU-Biox-Shanghai-3.png|500px|center]]<br> | ||
'''Figure 3.''' Immunofluorescence assay on tyrosinase anchoring on the spore surface. Groups: Samples containing plasmid with IPTG induced; Samples containing plasmid without IPTG induced; WB800N wildtype. <br> | '''Figure 3.''' Immunofluorescence assay on tyrosinase anchoring on the spore surface. Groups: Samples containing plasmid with IPTG induced; Samples containing plasmid without IPTG induced; WB800N wildtype. <br> | ||
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===Flow Cytometry=== | ===Flow Cytometry=== | ||
<p>FCM was also conducted by similar procedures and the results are as below:</p> | <p>FCM was also conducted by similar procedures and the results are as below:</p> | ||
+ | <p style="text-align: center;"> | ||
[[File:2022-SJTU-Biox-Shanghai-4.png|500px|center]]<br> | [[File:2022-SJTU-Biox-Shanghai-4.png|500px|center]]<br> | ||
'''Figure 4.''' Results of flow cytometry for the detection of tyrosinase. <br> | '''Figure 4.''' Results of flow cytometry for the detection of tyrosinase. <br> |
Revision as of 09:30, 12 October 2022
cotE protein DNA sequence
We added a Linker sequence to the end of the cotE protein sequence to facilitate the production of cotE with a further binding peptide to function with the cotB protein.
Usage and Biology
The melanin-binding-peptide 4B4 is an oligopeptide with only 10 amino acids, and according to the procedures mentioned above, we had added the flag-tag to it for verification. As another peptide on the spore surface, we chose the immunofluorescence assay similar to the ones done on tyrosinase. Anti-flag antibody coupled with PE-CY7 was used and we observe the results both from phase contract/ fluorescecnce microscopy and the flow cytometer. The excitation light is at 562nm and the emitted light is 770nm, so theoritically, red dots could be recognized if there were 4B4 expression on the surface. The microscope we used only got the excitation wave length for RFP, which is 532nm. Given that there must be a error band for the real wave length, we determined to have a try using 532nm light as the excitation light of CY7. The results of immunofluorescence is as below.
Figure 1. Electrophoresis results after PCR of cotE and the first PCR electrophoresis results of cotB. The picture indicates a positive result.
Figure 2. Electrophoresis results of cotB after the second PCR and Dsup-encoded gene after PCR. The picture indicates a positive result.
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 SapI.rc site found at 493
Characterization
<p>cotE and cotB proteins are closely related to tyrosinase activity.Tyrosinase and the melanin-binding-peptide were the next to be demonstrated because of their display on the spore surface, and the process of sporulation has been mentioned above. Because there was his-tag linking with our tyrosinase protein, we decided to use immunofluorescence to detect it. The following is the result of our immunofluorescence test:
Figure 3. Immunofluorescence assay on tyrosinase anchoring on the spore surface. Groups: Samples containing plasmid with IPTG induced; Samples containing plasmid without IPTG induced; WB800N wildtype.
.
Flow Cytometry
<p>FCM was also conducted by similar procedures and the results are as below:
Figure 4. Results of flow cytometry for the detection of tyrosinase.