Team:Washington/Magnetosomes/Background

From 2011.igem.org

(Difference between revisions)

Revision as of 23:24, 22 September 2011

iGEM Toolkits

As with the expansion of the iGEM competition, many iGEM teams have started to investigate the possibility of working with large-scale genomes. Large-scale gene manipulation often requires the use of tools which allow multiple gene inserts as to bring the cloning project from single gene level to a multiple gene level. However, the current BioBrick standard vectors available through iGEM are not designed for multiple-insert cloning. Therefore, the UW iGEM team decided to research methods to improve cloning efficiency and as a result, two "toolkits" were submitted to the registry.

Gibson Assembly Toolkit

As a continuation of the 2010 UW IGEM project, this year we developed and submitted several plasmid backbones that are Gibson cloning method friendly-- aka pGA vectors. It is called the Gibson Assembly Toolkit

What's in the Gibson Assembly Toolkit?

Five plasmid backbones
pGA1A3, pGA1C3, pGA3K3, pGA4A5, pGA4C5

Magnetosome Toolkit

In addition, we were also ambitious about assembling a large gene-construct of over 16 kb. Therefore, utilizing our pGA vectors and Gibson cloning methods, the Magnetosome Toolkit was developed with the goal to build magnetic E.Coli; a novel characteristic expressed solely by magnetotactic bacteria, such as Magnetospirillum magneticum strain AMB-1

What’s in the Magnetosome Toolkit?

A set of the 18 essential genes for the various steps of magnetosome formation.
Our favorite genes in pGA vectors
A table compiling individual gene functions from our literature search

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 == iGEM Toolkits ==
-As with the expansion of the iGEM competition, many iGEM teams have started to investigate the possibility to make multiple-gene insert for their project as to bring the cloning project from single gene level to multiple gene level. However, current Biobrick Standard vectors are not designed for multiple-insert cloning. Thus, UW IGEM team decided to research on methods to improve the cloning efficiency and two "toolkits" were brought to the Register as a result.
+As with the expansion of the iGEM competition, many iGEM teams have started to investigate the possibility of working with large-scale genomes. Large-scale gene manipulation often requires the use of tools which allow multiple gene inserts as to bring the cloning project from single gene level to a multiple gene level. However, the current BioBrick standard vectors available through iGEM are not designed for multiple-insert cloning. Therefore, the UW iGEM team decided to research methods to improve cloning efficiency and as a result, two "toolkits" were submitted to the registry.
 -----
@@ Line 9: / Line 9: @@
 === Gibson Assembly Toolkit ===
-As a continuation of [https://2010.igem.org/Team:Washington/Tools_Used/Next-Gen_Cloning 2010 UW IGEM project], this year we created and submitted several plasmid backbones that are Gibson cloning method friendly aka pGA vectors. It is called the [https://2011.igem.org/Team:Washington/Magnetosomes/GibsonVectors Gibson Assembly Toolkit]
+As a continuation of  the [https://2010.igem.org/Team:Washington/Tools_Used/Next-Gen_Cloning 2010 UW IGEM project], this year we developed and submitted several plasmid backbones that are Gibson cloning method friendly-- aka pGA vectors. It is called the [https://2011.igem.org/Team:Washington/Magnetosomes/GibsonVectors Gibson Assembly Toolkit]
@@ Line 41: / Line 41: @@
 '''What’s in the Magnetosome Toolkit?'''
-*A set of  the 18 essential genes for the various steps in magnetosome formation.
+*A set of  the 18 essential genes for the various steps of magnetosome formation.
 *Our favorite genes in pGA vectors
 *A table compiling individual gene functions from our literature search