Difference between revisions of "Part:BBa K5301004"

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	<h2>Characterization</h2>		<h2>Characterization</h2>
−	In the design, we intend to use the robust reaction conditions and irreversible connections of SpyCatcher and SpyTag to link the two ends of the MSP protein, thereby enabling the formation of nanodisks.	+	In the design, we intend to use the robust reaction conditions and irreversible connections of SpyCatcher and SpyTag to link the two ends of the MSP protein, thereby enabling the formation of nanodiscs.
	In the experiment, we successfully characterized the NW50 [BBa_K5301015] protein with spytag and spycatcher, but their presence promoted the dimerization of the protein (Figure 1a). Through the engineering of iGEM24_BNU-China, we alleviated the dimerization problem and produced a monomeric protein with two tags (Figure 1bc).		In the experiment, we successfully characterized the NW50 [BBa_K5301015] protein with spytag and spycatcher, but their presence promoted the dimerization of the protein (Figure 1a). Through the engineering of iGEM24_BNU-China, we alleviated the dimerization problem and produced a monomeric protein with two tags (Figure 1bc).
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	<a href="https://static.igem.wiki/teams/5301/parts/sds-results-of-nw50-dimerization-or-monomerization.png" class="internal" title="Enlarge"></a>		<a href="https://static.igem.wiki/teams/5301/parts/sds-results-of-nw50-dimerization-or-monomerization.png" class="internal" title="Enlarge"></a>
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−	<b>Figure 1. SDS analysis of NW50 results of dimerization(a) and monomerization(bc).</b>	+	<b>Figure 1. SDS analysis of NW50 with Spycatcher results of dimerization(a) and monomerization(bc).</b>
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	<h2>Conclusion</h2>		<h2>Conclusion</h2>
−	Finally, through electron microscope imaging, we determined that the nanodisk was successfully generated under the action of spytag and spycatcher(Figure 2).	+	Finally, through electron microscope imaging, we determined that the nanodisc was successfully generated under the action of spytag and spycatcher(Figure 2).
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	<a href="https://static.igem.wiki/teams/5301/parts/nw50-electron-microscope-photograph.jpg" class="internal" title="Enlarge"></a>		<a href="https://static.igem.wiki/teams/5301/parts/nw50-electron-microscope-photograph.jpg" class="internal" title="Enlarge"></a>
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−	<b>Figure 2. Electron microscopic images of nanodiscs with a particle size of about 100nm prepared by NW50. The particle size is in agreement with our DLS results.</b>	+	<b>Figure 2. Electron microscopic images(a) and DLS particle size results(b) of nanodiscs by NW50 and Spycatcher. </b>
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Revision as of 13:07, 30 September 2024

SpyCatcher can achieve covalent binding of proteins through Tag-Catcher interaction.

SpyCatcher comes from the spontaneous isopeptide bond domain in streptococcus pyogenes fibronectin-binding protein FbaB. It can cooperate with SpyTag to achieve covalent binding of proteins through Tag-Catcher interaction. The robust reaction conditions and irreversible linkage of SpyTag-Catcher provide a targetable lock in cells and a stable module for new protein architectures.

Sequence and Features

Characterization

In the design, we intend to use the robust reaction conditions and irreversible connections of SpyCatcher and SpyTag to link the two ends of the MSP protein, thereby enabling the formation of nanodiscs. In the experiment, we successfully characterized the NW50 [BBa_K5301015] protein with spytag and spycatcher, but their presence promoted the dimerization of the protein (Figure 1a). Through the engineering of iGEM24_BNU-China, we alleviated the dimerization problem and produced a monomeric protein with two tags (Figure 1bc).

Conclusion

Finally, through electron microscope imaging, we determined that the nanodisc was successfully generated under the action of spytag and spycatcher(Figure 2).