Difference between revisions of "Part:BBa K257001:Design"

Revision as of 14:37, 30 August 2009

Gene 3 protein of filamentous phages without the 18 first amino acids

Assembly Compatibility:

In our project we use g3p as a fusion to OmpA-Linker (No part name specified with partinfo tag.) 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...

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

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 ===Design Notes===
-*In our project we use g3p as a fusion to OmpA-Linker (BBa_K103996) which need SacI restriction site for inframe fusion.
+*In our project we use g3p as a fusion to OmpA-Linker (<partinfo>Part:BBa_K103996</partinfo>) 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.