Difference between revisions of "Part:BBa K4329000"

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As AIP and N-AgrD directs TurboID toward AgrC and AgrB, TurboID will catalyze biotin and ATP it carried to produce Biotinyl-5'-AMP, which is used for protein labeling. When this substance reaches its active site, AgrB and AgrC, it will expand from the site with a maximum rage of 10 nano meter labeling the nearby proteins, especially the lysines. When a certain amount of biotinyl-5’-AMP is marked on AgrC and AgrB, the connection between the cell and the outside world will be completely cut off, the metabolic waste cannot be transported out of the cell, and the nutrients cannot enter the cell, which interferes with the biochemical reaction. Thus, achieving the goal of inhibiting the quorum sensing of S. aureus.   
 
As AIP and N-AgrD directs TurboID toward AgrC and AgrB, TurboID will catalyze biotin and ATP it carried to produce Biotinyl-5'-AMP, which is used for protein labeling. When this substance reaches its active site, AgrB and AgrC, it will expand from the site with a maximum rage of 10 nano meter labeling the nearby proteins, especially the lysines. When a certain amount of biotinyl-5’-AMP is marked on AgrC and AgrB, the connection between the cell and the outside world will be completely cut off, the metabolic waste cannot be transported out of the cell, and the nutrients cannot enter the cell, which interferes with the biochemical reaction. Thus, achieving the goal of inhibiting the quorum sensing of S. aureus.   
 
===Usage and Biology===
 
 
  
 
===Characterization===
 
===Characterization===

Revision as of 11:49, 28 September 2022


TurboID-N_AgrD-AIP

What is it?

In order to label the quorum sensor protein of S. aureus with biotin, TurboID-AgrD fusion protein was applied to specify the biotinylation reaction by the guidance of N-AgrD(1-32). N-AgrD(1-32) guide to the surface channel protein named AgrB and AgrC which were further blocked by TurboID dependent lysine residues biotinylation.

This part includes Three substance: TurboID, N-AgrD, and AIP. TurboID, a pair of biotin ligases, was designed to overcome the problem of slow existing biotin ligases. protein biotinylation labeling time will be shorted to less than 10 minutes. This enables probing of dynamic biological processes with higher temporal resolution. AIP, autoinducing peptide, is a chemical released by S.aureus as it activates quorum sensing. N-AgrD is also a chemical involved in the cycle of virulence production, and it will direct TurboID toward the target site, AgrB.

What it does?

As AIP and N-AgrD directs TurboID toward AgrC and AgrB, TurboID will catalyze biotin and ATP it carried to produce Biotinyl-5'-AMP, which is used for protein labeling. When this substance reaches its active site, AgrB and AgrC, it will expand from the site with a maximum rage of 10 nano meter labeling the nearby proteins, especially the lysines. When a certain amount of biotinyl-5’-AMP is marked on AgrC and AgrB, the connection between the cell and the outside world will be completely cut off, the metabolic waste cannot be transported out of the cell, and the nutrients cannot enter the cell, which interferes with the biochemical reaction. Thus, achieving the goal of inhibiting the quorum sensing of S. aureus.

Characterization

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
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]