Team:Cambridge/Experiments/Initial Exercise Group One

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(Right side of the Div IVA coding sequence(site 2))
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==Initial Exercise: Katy, Heather, Marta and Veronica==
==Initial Exercise: Katy, Heather, Marta and Veronica==
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Fusion of Div IVA protein with GFP
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The aim of the project was to produce interesting patterns of fluorescence in a colony of ''Bacillus Subtilis'' bacteria by fusion of a single gene of interest in the bacillus ge=nome to GFP using Gibson Assembly. These patterns would need to be clearly observable using a confocal microscope. After some research, our group decided to fuse GFP to the DivIVA gene.
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===Role of Div IVA===
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===Reasons for choice===
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Div IVA controls septum positioning in Bacillus Subtilis
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Mutants show
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We decided to perform this fusion for a number of reasons. Firstly, DivIVA plays and interesting role in cell division; it is believed to control septum positioning in Bacillus Subtilis. This was investigated (in [http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2958.1997.3811764.x/abstract this] study) by considering the phenotype of mutants produced when certain bases in the gene were altered.
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Mutants showed:
*inhibition of cell division initiation*
*inhibition of cell division initiation*
*abnormally placed septum*
*abnormally placed septum*
*some small anucleate cells*
*some small anucleate cells*
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===Reasons for Choice===
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We also hoped that this fusion would have a high chance of success, since a successful divIVA-GFP fusion had already been documented, indicating that fluorescence was constitutively expressed and had a characteristic distribution; fluorescence was expressed at the
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*constitutively expressed*
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*Distinct characteristic distribution that is easy to observe*
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*successful divIVA-GFP fusion documented by Edwards and ERrington, 1997*
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===Construct Design===
===Construct Design===

Revision as of 16:24, 9 July 2011

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Initial Exercise: Katy, Heather, Marta and Veronica

The aim of the project was to produce interesting patterns of fluorescence in a colony of Bacillus Subtilis bacteria by fusion of a single gene of interest in the bacillus ge=nome to GFP using Gibson Assembly. These patterns would need to be clearly observable using a confocal microscope. After some research, our group decided to fuse GFP to the DivIVA gene.

Reasons for choice

We decided to perform this fusion for a number of reasons. Firstly, DivIVA plays and interesting role in cell division; it is believed to control septum positioning in Bacillus Subtilis. This was investigated (in [http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2958.1997.3811764.x/abstract this] study) by considering the phenotype of mutants produced when certain bases in the gene were altered.

Mutants showed:

  • inhibition of cell division initiation*
  • abnormally placed septum*
  • some small anucleate cells*

We also hoped that this fusion would have a high chance of success, since a successful divIVA-GFP fusion had already been documented, indicating that fluorescence was constitutively expressed and had a characteristic distribution; fluorescence was expressed at the


Construct Design

We wish to:

  • keep the original promotor for the Div IVA*
  • remove GFP promotor sequence*
  • remove DivivA stop codon*
  • Remove ComGA stabiliser sequence*
  • ‘Linkers’ were described by Edwards and Errington - we suspect that this is related to the restriction enzyme assembly process they used and hence didn’t include it in our design*

A sketch of design concept

Primer Design

used the Gibthon Construct Designer developed by the 2010 iGEM Cambridge team


Left side of the Div IVA coding sequence(site 1)

Left side of Div IVA sequence

Right side of the Div IVA coding sequence(site 2)

Right side of Div IVA sequence