Team:Paris/Transduction overview fusion

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(Overview)
(A.2 G3P)
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<b class="correction">En cours de rédaction</b><br>
<b class="correction">En cours de rédaction</b><br>
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Afin de fusioner les les vesicule à la memebrane
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La protéine virale G3P, naturellement exposée à la surface des bactériophages filamenteux, est utilisé pour induire l'entrée de celui ci dans les bactéries.
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Le phage M13 à notamment un tropisme spécifique pour E coli par liaison à son pilis sexuele.
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Notre but est d'induire une fusion spécifique des vesicules à la memebrane d'une population bactérienne cible.
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Afin que les vesicules ne refusionne pas avec les bactérie emetrice nous avons choisit deux population differentes.
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En effet la protéine G3P interagit avec le pilis sexuel. Une population sans pili sexuel ne poura interagire avec les vesicules. Au contriaire en utilisant une population capable de coder des pili sexuel, noous favorison l'interaction des vesicule avec cette population.
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Pour que la G3P soient presente à la surface de la vesicule, donc a la surface de la bactérie emetrice nous avons decider de la fusioner à une protéine de fusion créée par l'equipe de varsovie l'année derniere. Cette protéine Ompa fusioné a un linker est utiliser pour exprimer à la surface n'importe que protéine de fusion, et ce sur la surface externe de la mêmbrane.
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* Infection of Escherichia coli by filamentous bacteriophages as M13, fd, f1, is mediated by the phage gene 3 protein (g3p or pIII). This protein of 406 amino acid residues, has a signal peptide, two N-terminal domains and one C-terminal domain, separated by two flexible glycin-rich linkers. All three domains are indispensable for phage infectivity.<br>
* Infection of Escherichia coli by filamentous bacteriophages as M13, fd, f1, is mediated by the phage gene 3 protein (g3p or pIII). This protein of 406 amino acid residues, has a signal peptide, two N-terminal domains and one C-terminal domain, separated by two flexible glycin-rich linkers. All three domains are indispensable for phage infectivity.<br>
* The signal peptide (1-18aa) address the protein to the cell membrane before being cleaved. (We deleted it).<br>
* The signal peptide (1-18aa) address the protein to the cell membrane before being cleaved. (We deleted it).<br>
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====References====
====References====

Revision as of 17:27, 12 October 2009

iGEM > Paris > Reception > Fusion

Contents

Overview


A. Fusion

A.1 Jun/Fos

A.2 G3P

En cours de rédaction

Afin de fusioner les les vesicule à la memebrane



La protéine virale G3P, naturellement exposée à la surface des bactériophages filamenteux, est utilisé pour induire l'entrée de celui ci dans les bactéries. Le phage M13 à notamment un tropisme spécifique pour E coli par liaison à son pilis sexuele. Notre but est d'induire une fusion spécifique des vesicules à la memebrane d'une population bactérienne cible. Afin que les vesicules ne refusionne pas avec les bactérie emetrice nous avons choisit deux population differentes. En effet la protéine G3P interagit avec le pilis sexuel. Une population sans pili sexuel ne poura interagire avec les vesicules. Au contriaire en utilisant une population capable de coder des pili sexuel, noous favorison l'interaction des vesicule avec cette population.

Pour que la G3P soient presente à la surface de la vesicule, donc a la surface de la bactérie emetrice nous avons decider de la fusioner à une protéine de fusion créée par l'equipe de varsovie l'année derniere. Cette protéine Ompa fusioné a un linker est utiliser pour exprimer à la surface n'importe que protéine de fusion, et ce sur la surface externe de la mêmbrane.



  • Infection of Escherichia coli by filamentous bacteriophages as M13, fd, f1, is mediated by the phage gene 3 protein (g3p or pIII). This protein of 406 amino acid residues, has a signal peptide, two N-terminal domains and one C-terminal domain, separated by two flexible glycin-rich linkers. All three domains are indispensable for phage infectivity.
  • The signal peptide (1-18aa) address the protein to the cell membrane before being cleaved. (We deleted it).
  • The first N-terminal domain (N1) binds to the bacterial periplasmatic domain of TolA (TolAII - see http://biocyc.org/ECOLI/NEW-IMAGE?type=GENE&object=EG11007 ), receptor presumably at the inner face of the outer membrane.
  • The second N-terminal domain (N2) gives recognition of the host cell by binding the F-pilus on the surface of E. coli. F-pilus is encode by the F episome of male E. coli, and is the primary receptor of the host cell.
  • In fact, N1 and N2 interact with each other to form a blocked di-domain (N1G1N2). The binding of N2 to the tip of the bacterial F-pilus releases N1, which becomes free to interact with its receptor TolA (TolAIII).
  • The C terminus (CT) of g3p anchors the g3p in the phage coat by interacting with phage coat protein 6, at the tip of the phage. Its seem that phages are released from the bacterial membrane by a two-step mechanism involving a short C-terminal fragment of g3p.
  • N1, N2 and N3 domain are linked by flexible glycin-rich domains (G1 and G2). G1 is composed of four tandem copies of the sequence Glu-Gly-Gly-Gly-Ser. In a recent study it has been showed that it may have an active role in F-pilus-dependent infection.
  • Fusion of peptides or proteins to the N-terminus of intact g3p does not compromise infectivity of the phage, but insertion of polypeptides between N2 and N3 appear to reduce the infectivity.



Design Notes

  • In our project we use g3p as a fusion to OmpA-Linker (BBa_K103996) which need SacI restriction site for inframe fusion.
  • So we design g3p with SacI site at the N-terminal. SacI (GAGCT^C) site is shared with XbaI (T^CTAGA) in order to have SacI site for fusion and standard sites.
  • Moreover we decide to suppres the signal peptide (18 first amino acids) which is cleaved in order to conserve the N-ter fusion.


  • g3p could be found in filamentous bacteriophages like M13, fd, f1, etc... or in phage helper like M13KO7, etc...


References

  • The Mechanism of Bacterial Infection by Filamentous Phages Involves Molecular Interactions between TolA and Phage Protein 3 Domains. Fredrik Karlsson, Carl A. K. Borrebaeck, Nina Nilsson, and Ann-Christin Malmborg-Hager
  • Interdomain interactions within the gene 3 protein of philamentous phage. Jean Chatellier, Oliver Hartley, Andrew D. Grifths, Alan R. Fershta, Greg Wintera, Lutz Riechmannb
  • A prokaryotic membrane anchor sequence: Carboxyl terminus of bacteriophage fl gene III protein retains it in the membrane. Jef D. Boeke AND Peter Model



Direct link to our part :

end of SacI site for fusion 1 3
N1 domain 5 205
G1 (Gly-rich linker, EGGGS motif) 206 262
N2 domain 263 655
G2 (Gly-rich linker) 656
CT domain 788 1237
Double stop codon 1238

References

Date Authors Article Pubmed
G3P
[] 1982 JEF D. BOEKE & PETER MODEL A prokaryotic membrane anchor sequence: carboxyl terminus of bacteriophage f1 gene III protein retains it in the membrane. [http://www.ncbi.nlm.nih.gov/pubmed/6291030 6291030]
[] 1999 Chatellier J & Riechmann L. Interdomain interactions within the gene 3 protein of filamentous phage. [http://www.ncbi.nlm.nih.gov/pubmed/10606756 10606756]
[] 1999 Lubkowski J & Wlodawer A. Filamentous phage infection: crystal structure of g3p in complex with its coreceptor, the C-terminal domain of TolA. [http://www.ncbi.nlm.nih.gov/pubmed/10404600 10404600]
[] 2002 Baek H & Cha S. An improved helper phage system for efficient isolation of specific antibody molecules in phage display. [http://www.ncbi.nlm.nih.gov/pubmed/11861923 11861923]
[] 2003 Karlsson F & Malmborg-Hager AC. The mechanism of bacterial infection by filamentous phages involves molecular interactions between TolA and phage protein 3 domains. [http://www.ncbi.nlm.nih.gov/pubmed/12670988 12670988]

A.3 Snares

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