Team:Exeter/Results

From 2012.igem.org

Revision as of 12:57, 26 September 2012 by On7h33dg3 (Talk | contribs)

ExiGEM2012 Lab Book Home

Results

GlycoBase  |  Contributors: Liam Stubbington and Alex Baldwin

Result in Brief:

GlycoWeb |   Contributors: Liam Stubbington, James Lynch

Result in Brief:

Bio-Brick vs. Gibson Assembly |   Contributors: Mary Beton, Freddie Dudbridge, Ryan Edginton

Result in Brief:

Taking on the challenge of designing and constructing an operon in such a short experimental window was always expected to be ambitious, and running two different techniques side by side meant that the project ran out of time. The allotted time was insufficient to finish either BioBrick assembly or Gibson assembly of an entire operon, and consequently it was impossible to test for biosynthesis of a novel polysaccharide. Through BioBrick assembly, several RBS-gene constructs were made which, the promoter_RBS construct was made and terminators were added to the ends of the constructs Some of these we have managed to transfer into pSB1C3 plasmids and have gone on to the registry as new BioBricks. The use of both Gibson assembly and BioBrick assembly has built a comparative picture of the two assembly methods in the hope that future iGEM teams might get quantitative data to assist decisions over the use of Gibson and BioBrick assembly in the iGEM competition. We hope that if we have a chance to continue this work, we could complete one of the operons and test for novel polysaccharides.

Showcasing Polysaccharide Production |   Contributors: Becca Philp, Alex Clowsley, Freddie Dudbridge

Result in Brief:

The unique and variable properties of polysaccharides in nature led us to undertake cloning and producing a variety of polysaccharides from different natural sources into our E.coli. These polysaccharides have variable structures and important applications in diverse business sectors. The Hyaluronan synthase and cyclodextrin glycosyltransferase enzymes were successfully cloned and sequenced inside pSB1C3 plasmids and submitted to the registry for future teams to realise their potential products (BBa_K764022 and BBa_K764026 respectively). Each of the showcase enzymes were successfully linked to terminators, sequenced and submitted to the registry, including levansucrase. Levansucrase was an adaption of Newcastle iGEM 2010’s gene for SacB, adding a terminator on for more ease of use for future teams as they can by-pass this cloning step. (NEED ALEX C TO INFORM ME WHERE THE LAB GOT FROM HERE). Unfortunately due to time restraints we were unable to produce our desired polysaccharide in our E. coli, leaving an opportunity for a future iGEM team to continue our work.

Modelling |  Contributors: Andy Corbett

Result in Brief:

The 3-Gene Inducible Plasmid |   Contributors: Freddie Dudbridge, Alex Clowsley, Ryan Edginton, James Lynch

With: Ryan Edginton, Alice Bond, James Lynch and Liam Stubbington

Result in Brief:

We set out to create a three gene inducible plasmid and nearly got there. At the end of the project we managed to add two genes to promoter, RBS and terminators and create the promoter_RBS and the gene terminator ready to put together for the third construct. A ligation of the two full constructs is in the freezer ready to be transformed. Although the project has come short and the goal has not been achieved, we were still able to use the constructs made to test for protein expression to help characterise the promoters we used. Given more time it would be great to be able to complete this side of the project in the future seeing as we managed to get so close.

Single Gene Plasmids and Enzyme Characterisation |   Contributors: Alex Baldwin, Freddie Dudbridge, Alex Clowsley

Result in Brief:

Useful Polysaccharides |  Contributors: Mary Beton, Freddie Dudbridge, Ryan Edginton

Result in Brief:

Due to an insufficient experimental time window, we were unable to complete the ambitious attempt to assemble an entire operon whilst comparing Bio-Brick Assembly and Gibson Assembly, as noted above. Consequently it was impossible to test for biosynthesis of a novel polysaccharide. We hope that if we have a chance to continue this work, we could complete one of the operons and test for novel polysaccharides.