Difference between revisions of "Part:BBa K5301018"

Revision as of 08:07, 1 October 2024

sGFP11 tether is composed of mSA, a 3C linker, a 6His tag, and sGFP 11.

sGFP11 tether is composed of mSA, a 3C linker, a 6�His tag, and sGFP 11.We construct membrane protein dimers through the interaction between biotin and streptavidin, as well as the self-assembly mechanism of sGFP.

Usage and Biology

mSA is used for binding to biotinylated proteins, and sGFP1-10 and sGFP11 self-assemble to form GFP, thereby creating a protein dimer that can report the outcome with fluorescence.

Characterization

PCR

We conducted colony PCR validation to assess the feasibility of the plasmid pathway, as shown in Figure 1, where the corresponding bands are very clear, indicating that the target fragments were successfully introduced into the plasmid and transformed into the bacterial strain.

Figure 1.PCR result of the sGFP1-10 tether.The base sequence length of the sGFP11 tether is 477 base pairs (bp)

SDS-PAGE

SDS-PAGE was used to verify the purification of the sGFP11 tether. Due to the particularity of mSA, we simultaneously purified the soluble proteins from the supernatant and the inclusion body proteins from the pellet after bacterial lysis. It can be observed that the concentration and purity of the purified inclusion body proteins are high, while the concentration of the soluble proteins is low. Further exploration of soluble protein expression or assessment of inclusion body protein activity can be conducted subsequently. Based on the experience with the sGFP1-10 tether, we have purified the soluble and inclusion body proteins of the sGFP11 tether, as shown in Figure 2.

Figure 2.SDS-PAGE of the soluble sGFP11 tether.The molecular weight of the sGFP11 tether is 17.0 kDa. Bands 4 and 5 represent the elution results of the sGFP11 tether with 100 mM and 150 mM imidazole, respectively. It can be observed that the concentration of the protein eluted with 100 mM imidazole is higher.

ELISA

Sequence and Features

Assembly Compatibility:

10
COMPATIBLE WITH RFC[10]
12
COMPATIBLE WITH RFC[12]
21
COMPATIBLE WITH RFC[21]
23
COMPATIBLE WITH RFC[23]
25
INCOMPATIBLE WITH RFC[25]
Illegal AgeI site found at 82
Illegal AgeI site found at 142
1000
COMPATIBLE WITH RFC[1000]

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 <partinfo>BBa_K5301018 short</partinfo>
-sGFP1-10 tether is composed of mSA, a 3C linker, a 6�His tag, and sGFP 11.We construct membrane protein dimers through the interaction between biotin and streptavidin, as well as the self-assembly mechanism of sGFP.
+sGFP11 tether is composed of mSA, a 3C linker, a 6�His tag, and sGFP 11.We construct membrane protein dimers through the interaction between biotin and streptavidin, as well as the self-assembly mechanism of sGFP.
 ===Usage and Biology===
-We devised the fusion expression of SdyCatcher with spNW15, SpyCatcher and mCherry[1-10] (namely SCSdC-mCh[1-10]). We employed SdyTag and SdyCatcher to link two proteins - SCSdC-mCh[1-10] and SnCSdT.
+mSA is used for binding to biotinylated proteins, and sGFP1-10 and sGFP11 self-assemble to form GFP, thereby creating a protein dimer that can report the outcome with fluorescence.
 ===Characterization===
+==PCR==
+We conducted colony PCR validation to assess the feasibility of the plasmid pathway, as shown in Figure 1, where the corresponding bands are very clear, indicating that the target fragments were successfully introduced into the plasmid and transformed into the bacterial strain.
-We used SDS-PAGE to test whether the protein containing SdyCatcher had been expressed successfully(Figure 1). The molecular weight of SCSdC-mCh[1-10] (containing SdyCatcher) is 76.3 kDa. And we purified the target protein with a molecular weight of approximately 70-100 kD (Lane 4 - Lane 5), which demonstrated that we had successfully expressed the protein containing SdyCatcher.
+<div class="center"><div class="thumb tnone"><div class="thumbinner" style="width:min-content;"><div style="zoom:0.6;overflow:hidden;">
+https://static.igem.wiki/teams/5301/parts/sgfp11-pcr.png
+</div><div class="thumbcaption">
+Figure 1.PCR result of the sGFP1-10 tether.The base sequence length of the sGFP11 tether is 477 base pairs (bp)
+</div></div></div></div>
-<div class="center"><div class="thumb tnone"><div class="thumbinner" style="width:min-content;"><div style="zoom:0.5;overflow:hidden;">
+==SDS-PAGE==
-https://static.igem.wiki/teams/5301/parts/sds-page-result-of-sdycatcher-for-sdycatcher.png
+SDS-PAGE was used to verify the purification of the sGFP11 tether. Due to the particularity of mSA, we simultaneously purified the soluble proteins from the supernatant and the inclusion body proteins from the pellet after bacterial lysis. It can be observed that the concentration and purity of the purified inclusion body proteins are high, while the concentration of the soluble proteins is low. Further exploration of soluble protein expression or assessment of inclusion body protein activity can be conducted subsequently.
+Based on the experience with the sGFP1-10 tether, we have purified the soluble and inclusion body proteins of the sGFP11 tether, as shown in Figure 2.
+<div class="center"><div class="thumb tnone"><div class="thumbinner" style="width:min-content;"><div style="zoom:0.4;overflow:hidden;">
+https://static.igem.wiki/teams/5301/parts/sgfp1-11-sds.png
 </div><div class="thumbcaption">
-Figure 1.SDS-PAGE analysis of the extraction results of SCSdC-mCh[1-10] (containing SdyCatcher).The gel was run at 80 V for 10 minutes and then at 150 V for 20 minutes, followed by staining with Coomassie Brilliant Blue. The molecular weight of SCSdC-mCh[1-10] is 76.3 kDa.
+Figure 2.SDS-PAGE of the soluble sGFP11 tether.The molecular weight of the sGFP11 tether is 17.0 kDa. Bands 4 and 5 represent the elution results of the sGFP11 tether with 100 mM and 150 mM imidazole, respectively. It can be observed that the concentration of the protein eluted with 100 mM imidazole is higher.
 </div></div></div></div>
+==ELISA==
 <!-- Add more about the biology of this part here