Team:Leeds/Project
From 2013.igem.org
m |
|||
Line 14: | Line 14: | ||
We split our project into self-contained phases, to help better organise ourselves, but also lay out a road map for our own future work within and without iGEM. The first of these looks at developing, characterising and producing basic BioBricks. | We split our project into self-contained phases, to help better organise ourselves, but also lay out a road map for our own future work within and without iGEM. The first of these looks at developing, characterising and producing basic BioBricks. | ||
===Biobrick I=== | ===Biobrick I=== | ||
- | Biobrick I is a very simple modification of the Cpx promoter in ''E. coli'' to produce a fluorescent reporter when the cell is under membrane stress. We will then characterise and test the insertion following the work by ''Otto & Silhaevy 2001'' in which glass beads were used to induce hydrophobic membrane stress. What we would hope is that when we add our cells to a vial containing similar hydrophobic beads we can detect fluorescence emissions confirming that our biobrick is working as we had hoped. | + | Biobrick I is a very simple modification of the Cpx promoter in ''E. coli'' to produce a fluorescent reporter when the cell is under membrane stress. We will then characterise and test the insertion following the work by ''Otto & Silhaevy 2001'' in which glass beads were used to induce hydrophobic membrane stress. What we would hope is that when we add our cells to a vial containing similar hydrophobic beads we can detect fluorescence emissions confirming that our biobrick is working as we had hoped. Bio bricks we will be using: |
+ | BBa_K135000 pCpxR promoter responds to membrane stress | ||
+ | BBa_K081012 Green fluorescent protein generator. Contain ribosome binding site and terminator | ||
+ | |||
===Biobrick 2=== | ===Biobrick 2=== | ||
- | Simultaneously, we will be developing a BioBrick for physical attachment and detection of particles. This will work using Ice Nucleation Protein to display a oligo-peptide of our choice on the outer-membrane of our ''E. coli", initially this will be a peptide capable of binding silica beads allowing us to create a model system of particle detection. The cells producing this receptor complex will also be constitutively producing a fluorescent reporter of our choice to allow for its detection on silica beads following removal of supernatant and washing. | + | Simultaneously, we will be developing a BioBrick for physical attachment and detection of particles. This will work using Ice Nucleation Protein to display a oligo-peptide of our choice on the outer-membrane of our ''E. coli", initially this will be a peptide capable of binding silica beads allowing us to create a model system of particle detection. The cells producing this receptor complex will also be constitutively producing a fluorescent reporter of our choice to allow for its detection on silica beads following removal of supernatant and washing. Biobricks we will be using: |
+ | BBa_K081012 Green fluorescent protein generator. Contain ribosome binding site and terminator | ||
+ | BBa_K523008 Ice nucleation protein. Transported to cell membrane shows C-terminus on cell surface | ||
+ | BBaa_B0015 Double terminator | ||
+ | BBa_B0034 Strong ribosome binding site | ||
+ | BBa_J23119 Constitutive promoter | ||
Again, fluorescent reporters will be used, but this time the focus is on the adhesion proteins being used. | Again, fluorescent reporters will be used, but this time the focus is on the adhesion proteins being used. |
Revision as of 10:31, 10 July 2013
Brief project overview, possibly going to have a lot of sub pages
Phase IWe split our project into self-contained phases, to help better organise ourselves, but also lay out a road map for our own future work within and without iGEM. The first of these looks at developing, characterising and producing basic BioBricks. Biobrick IBiobrick I is a very simple modification of the Cpx promoter in E. coli to produce a fluorescent reporter when the cell is under membrane stress. We will then characterise and test the insertion following the work by Otto & Silhaevy 2001 in which glass beads were used to induce hydrophobic membrane stress. What we would hope is that when we add our cells to a vial containing similar hydrophobic beads we can detect fluorescence emissions confirming that our biobrick is working as we had hoped. Bio bricks we will be using: BBa_K135000 pCpxR promoter responds to membrane stress BBa_K081012 Green fluorescent protein generator. Contain ribosome binding site and terminator Biobrick 2Simultaneously, we will be developing a BioBrick for physical attachment and detection of particles. This will work using Ice Nucleation Protein to display a oligo-peptide of our choice on the outer-membrane of our E. coli", initially this will be a peptide capable of binding silica beads allowing us to create a model system of particle detection. The cells producing this receptor complex will also be constitutively producing a fluorescent reporter of our choice to allow for its detection on silica beads following removal of supernatant and washing. Biobricks we will be using: BBa_K081012 Green fluorescent protein generator. Contain ribosome binding site and terminator BBa_K523008 Ice nucleation protein. Transported to cell membrane shows C-terminus on cell surface BBaa_B0015 Double terminator BBa_B0034 Strong ribosome binding site BBa_J23119 Constitutive promoter Again, fluorescent reporters will be used, but this time the focus is on the adhesion proteins being used. Youtube VideosWhile doing all of this, the team aims to create short Youtube videos to teach Synthetic Biology at a range of levels, but especially including instructional videos for future team members.
Phase IIPhase II takes the products of Phase I to the next level, and begins to look at integration of the two BioBricks. Biobrick IIIDue to it's size, the team have decided to collaborate with the Evry team and make use of the Goldengate/GoldenBrick assembly methods. This will hopefully allow our small team to rather rapidly integrate and produce this thrid master BioBrick.
| |||||||
| |||||||
Home | Team | Official Team Profile | Project | Parts Submitted to the Registry | Modeling | Notebook | Safety | Attributions |
---|
Overall project
Tell us more about your project. Give us background. Use this is the abstract of your project. Be descriptive but concise (1-2 paragraphs)