Difference between revisions of "Part:BBa K3128011"

(BACTH Principle)
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In 1989, Fields and Song demonstrated a new genetic system allowing protein-protein interaction detection <sup>(1)</sup>. At first, it was done in ''Saccharomyces cerevisiae'' yeast and it was called the yeast two-hybrid assay (Y2H). In 1998, Ladant and al. described the system in bacteria <sup>(2)</sup>. Nowadays, this biological technique is mostly used to show and characterize the physical interaction between two cytosolic proteins or internal membrane proteins in vivo <sup>(3)</sup>.  
 
In 1989, Fields and Song demonstrated a new genetic system allowing protein-protein interaction detection <sup>(1)</sup>. At first, it was done in ''Saccharomyces cerevisiae'' yeast and it was called the yeast two-hybrid assay (Y2H). In 1998, Ladant and al. described the system in bacteria <sup>(2)</sup>. Nowadays, this biological technique is mostly used to show and characterize the physical interaction between two cytosolic proteins or internal membrane proteins in vivo <sup>(3)</sup>.  
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[[File:T--Grenoble-Alpes--click chemistry gif.gif]]
  
 
===BACTH Principle===
 
===BACTH Principle===

Revision as of 16:36, 18 September 2019

OmpX-WT fused with T18 subpart of Bordetella Pertussis adenylate cyclase under lactose promoter

Sequence and features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BamHI site found at 1504
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal NgoMIV site found at 1045
    Illegal NgoMIV site found at 1455
    Illegal AgeI site found at 1261
  • 1000
    COMPATIBLE WITH RFC[1000]


Usage and Biology

In 1989, Fields and Song demonstrated a new genetic system allowing protein-protein interaction detection (1). At first, it was done in Saccharomyces cerevisiae yeast and it was called the yeast two-hybrid assay (Y2H). In 1998, Ladant and al. described the system in bacteria (2). Nowadays, this biological technique is mostly used to show and characterize the physical interaction between two cytosolic proteins or internal membrane proteins in vivo (3).

File:T--Grenoble-Alpes--click chemistry gif.gif

BACTH Principle

The BACTH principle lies on the interaction-mediated reconstitution of a signaling cascade in Escherichia Coli bacteria. The messenger molecule involved in this cascade is the cyclic adenosine monophosphate (cAMP) produced by the adenylate cyclase. The adenylate cyclase is an enzyme catalysing the cAMP production from ATP, it physiologically participates to the cellular transmission. In this system, the Bordetella pertussis adenylate cyclase, responsible agent for the pertussis, is involved. Its catalytical domain has the particularity to may be split in two distinct parts: T18 and T25 fragments, unable to work unless they reassociate. Each part of the enzyme is fused with a protein, either the bait or the prey protein. If the proteins interact, then T18 and T25 get sufficient closer and reconstitute a functional enzyme, thus allowing cAMP production. By using cya- bacteria –bacteria for whom the adenylate gene was deleted, involving an absence of this endogenous enzyme – a BACTH could be done with the creation of two fusion proteins : the first one, fused at its N or C terminal intracellular end with T18 fragment; the second one fused with T25 fragment. The interaction of these protein of interest will lead to the adenylate cyclase reconstitution, and the cAMP produced will have a messenger role. By fixing itself to the transcriptional activator CAP, cAMP form the CAP/cAMP complex, controlling the expression of a plac inducible promoter. This promoter is placed upstream the chosen reporter gene.


Membrane BACTH: BBa_K3128011 description

This biobrick is composed of the external membrane OMPx WT protein fused at its N-terminal end with a 54 aa GGS linker (BBa_K3128010) followed by the T18 subunit of the Bordetella Pertussis adenylate cyclase. This biobrick is under plac promoter in order to be activated when the cAMP messenger is present in the system.

References

(1) Fields S, Song O. A novel genetic system to detect protein–protein interactions. Nature [Internet]. 1989

(2) Karimova G, Pidoux J, Ullmann A, Ladant D. A bacterial two-hybrid system based on a reconstituted signal transduction pathway. PNAS [Internet]. 1998

(3) Karimova G, Gauliard E, Davi M, P.Ouellette S, Ladant D. Protein–Protein Interaction: Bacterial Two-Hybrid. 2017