Wiki/Team:Warsaw/igem project.htm
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<img src="https://static.igem.org/mediawiki/2008/2/24/Selekcja_ang.png" > | <img src="https://static.igem.org/mediawiki/2008/2/24/Selekcja_ang.png" > | ||
- | <var>Fig. 1. Variants of the selection system using two parts of TEM-1 | + | <var>Fig. 1. Variants of the selection system using two parts of TEM-1 β-lactamase (alpha and omega). </var> |
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- | <p> Selection pressure is needed to let survive only cells with the best interacting proteins. We have used TEM-1 | + | <p> Selection pressure is needed to let survive only cells with the best interacting proteins. We have used TEM-1 β-lactamase (protein responsible for resistance to β-lactam antibiotics such as ampicillin) split into two complementing fragments: alpha and omega. Those fragments do not form active complexes spontaneously. Antibiotic resistance is achieved only when alpha and omega are in close proximity – i.e. when they are connected to two strongly interacting proteins. So "hunter" protein connected with one β-lactamase fragment will catch "prey" protein connected to another and will allow survival of the cell in ampicillin containing medium. Cell line carrying the best hunter protein will have selection advantage over others.</p> |
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4. The best hunters survive. </var> | 4. The best hunters survive. </var> | ||
- | <p>In order to confirm that this system works we have chosen two small strongly interacting proteins B domain of Staphylococcal protein A and Z<sub>SPA1</sub> (formerly denoted as A and Z respectively). The A protein is the famous protein from <i>Staphylococcus aureus</i> which binds to constant fragments of IgG antibodies and has many uses in molecular biology. The Z protein is its artificially created close relative <b>[<a href="http://www.ncbi.nlm.nih.gov/pubmed/15238637?ordinalpos=1&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_DefaultReportPanel.Pubmed_RVDocSum">PMID:15238637</a>]</b>. Apart from interacting with the A protein the Z protein tends to aggregate (this interaction is much weaker than with A though). We have created many variants of construct based on pACYC177 vector (low copy – 10 copies per cell) with IPTG-induced promoter. They contain OmpA fragment, A and Z proteins and | + | <p>In order to confirm that this system works we have chosen two small strongly interacting proteins B domain of Staphylococcal protein A and Z<sub>SPA1</sub> (formerly denoted as A and Z respectively). The A protein is the famous protein from <i>Staphylococcus aureus</i> which binds to constant fragments of IgG antibodies and has many uses in molecular biology. The Z protein is its artificially created close relative <b>[<a href="http://www.ncbi.nlm.nih.gov/pubmed/15238637?ordinalpos=1&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_DefaultReportPanel.Pubmed_RVDocSum">PMID:15238637</a>]</b>. Apart from interacting with the A protein the Z protein tends to aggregate (this interaction is much weaker than with A though). We have created many variants of construct based on pACYC177 vector (low copy – 10 copies per cell) with IPTG-induced promoter. They contain OmpA fragment, A and Z proteins and β-lactamase fragments in various combinations. Most of our constructs contain duplicated B domain (we call it A), but for some purposes we used single A protein (A delta). Lists of pACYC177 constructs:</p> |
<table border="0" width="70%" align="center"> | <table border="0" width="70%" align="center"> | ||
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<br> | <br> | ||
+ | <p>Expresion of fusion protein Omp_omega_deltaA_alpha in <a href="https://2008.igem.org/Wiki/Team:Warsaw/igem_notebook.htm#top10">TOP10</a> strain was confirmed by Western blotting using anti-A antibody [<b>LINK</b>]. It reacted with bands of different molecular weights, probably due to degradation of fusion protein by intrinsic <i>E. coli</i> proteases. Therefore we used the same construct to transform <a href="https://2008.igem.org/Wiki/Team:Warsaw/igem_notebook.htm#rosetta">Rosetta</a> strain, which lacks a set of proteases and repeated Western blot [<b>link</b>]. There weren't any important differences. We tested also for presence of Omp_omega_deltaA_alpha on bacterial surface.</p> | ||
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<a name="selection"><h2>2. Selection</h2></a> | <a name="selection"><h2>2. Selection</h2></a> | ||
<br> | <br> | ||
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</li> | </li> | ||
</ol> | </ol> | ||
- | <p>To test various variants of AID we needed proper reporter system. We have used alpha-complementing | + | <p>To test various variants of AID we needed proper reporter system. We have used alpha-complementing β-galactosidase fragment under control of T7 promoter. We used one-copy plasmid pZC320 (minireplicon of plasmid F), which contained this fragment. After obtaining and induction of cotransformants carrying one of AID devices and reporter plasmid, we hoped to get some white colonies on X-gal plates, indicating mutated clones.</p> |
<div align="center"><img src="https://static.igem.org/mediawiki/2008/9/9a/Test_taxi_OK.png" /></div> | <div align="center"><img src="https://static.igem.org/mediawiki/2008/9/9a/Test_taxi_OK.png" /></div> | ||
<var>Fig. 1. Our reporter system for checking site-specificity of AID-induced mutations<br/>pBAD - arabinose promoter; pT7 - T7 promoter; L - linker; RBS - sequence coding Ribosomal Binding Site; TAXI=LB+Tetracycline+Ampicillin+IPTG+X-gal</var><br/> | <var>Fig. 1. Our reporter system for checking site-specificity of AID-induced mutations<br/>pBAD - arabinose promoter; pT7 - T7 promoter; L - linker; RBS - sequence coding Ribosomal Binding Site; TAXI=LB+Tetracycline+Ampicillin+IPTG+X-gal</var><br/> | ||
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</h3> | </h3> | ||
<h3>2. Results</h3> | <h3>2. Results</h3> | ||
- | <p>We have obtained various numbers of white clones using different AID encoding devices but sequencing of | + | <p>We have obtained various numbers of white clones using different AID encoding devices but sequencing of β-galactosidase gene from those clones revealed no mutations. It has to be a flaw in our reporter system. It seems that expressed β-galactosidase fragment encoded on pZC320 plasmid is somehow switched off. We have sequenced large fragments of many white clones of pZC320 – no mutations, no clues. <b>Probowalismy zmienic gen reporterowy na GFP lub RFP ale nasze usilowania nie daly rezultatu - link do notebooka.</b> The test was carried out in two <i>E. coli</i> strains: Top10 and GM2163. The latter has damaged Dam and Dcm methyltransferases so DNA repair systems relying on their activity are unable to repair mismatches created by AID. The results obtained so far are presented in table below:</p> |
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</table> | </table> | ||
- | + | <p>Interesting that although results of β-galactosidase activity test (blue and white colonies) didn't give any information on mutation rate, they differed between strains bearing various AID variants and these results were almost identical between <a href="https://2008.igem.org/Wiki/Team:Warsaw/igem_notebook.htm#top10">TOP10</a> and <a href="https://2008.igem.org/Wiki/Team:Warsaw/igem_notebook.htm#gm">GM2163</a>.</p> | |
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<b>Ciekawe jest to ze choc wyniki biale niebieskie nie daly nam zadnej informacji na temat powstawnia mutacji to roznily sie one miedzy szczepami niosacymi rozne warianty AIDu i te wyniki byly prawie idealnie powtarzalne pomiedzy powtorzeniami obejmujacymi nas dwa rozne szczepy e. coli staowane przez nas. Przykladowe wyniki z notebooka tutaj: <a href="https://2008.igem.org/Team:Warsaw/Calendar-Main/12_June_2008">bluewhite</a>, https://2008.igem.org/Team:Warsaw/Calendar-Main/18_June_2008. Nie mamy pojecia dlaczego tak sie dzieje.</b> | <b>Ciekawe jest to ze choc wyniki biale niebieskie nie daly nam zadnej informacji na temat powstawnia mutacji to roznily sie one miedzy szczepami niosacymi rozne warianty AIDu i te wyniki byly prawie idealnie powtarzalne pomiedzy powtorzeniami obejmujacymi nas dwa rozne szczepy e. coli staowane przez nas. Przykladowe wyniki z notebooka tutaj: <a href="https://2008.igem.org/Team:Warsaw/Calendar-Main/12_June_2008">bluewhite</a>, https://2008.igem.org/Team:Warsaw/Calendar-Main/18_June_2008. Nie mamy pojecia dlaczego tak sie dzieje.</b> | ||
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- | <p>Our long-term plan is to replace A and Z proteins with antibody fragments and antigen but for now we need to check if it's working. To sequence the A protein we will introduce mutations which will make interaction with Z impossible. We will introduce constructs carrying mutated A sequences to "one-armed bandit" strain – we want to check if and when reversion to wild type A will occur in mutant mixture. <b> Niestety nie udalo nam sie uzyskac pozadanych mutantow (link)i ze wzgledu na brak czasu nie jestesmy w stanie w tej edycji igem ich otrzymac. Probowalismy takzesprawdzic czy obecnosci selekcji gdy caly nasz uklad dziala w szczepie mutatorowym spowoduje powstanie mutacji ulatwiajacych oddzialywanie miedzy a i z lub sprawiajacych ze fragmenty | + | <p>Our long-term plan is to replace A and Z proteins with antibody fragments and antigen but for now we need to check if it's working. To sequence the A protein we will introduce mutations which will make interaction with Z impossible. We will introduce constructs carrying mutated A sequences to "one-armed bandit" strain – we want to check if and when reversion to wild type A will occur in mutant mixture. <b> Niestety nie udalo nam sie uzyskac pozadanych mutantow (link)i ze wzgledu na brak czasu nie jestesmy w stanie w tej edycji igem ich otrzymac. Probowalismy takzesprawdzic czy obecnosci selekcji gdy caly nasz uklad dziala w szczepie mutatorowym spowoduje powstanie mutacji ulatwiajacych oddzialywanie miedzy a i z lub sprawiajacych ze fragmenty β laktamazy moga sie laczyc spontanicznie - rowniez bez skutku(link)</b> The simplest version of this experiment – mixing of two existing strains, isolating plasmid DNA and assessing strain proportions using restriction digests gave very promising results. After mixing equal amounts of OmpA_alpha and OmpA_A_alpha and using our selection system we have isolated only plasmid carrying OmpA_A_alpha (this experiment was also successful for mixture of OmpA_omega and OmpA_A_omega).</p> |
</td> | </td> |
Revision as of 17:59, 28 October 2008
Bacterial device for creating and production of interactors for any given bait proteinOur goal was to create system of biological machines which would allow to investigate protein interactions and simultaneously change sequence of one of them in order to achieve the strongest possible interaction. To make it work we planned to put the DNA sequence of tested protein on low-copy plasmid and transform it to bacterial strain in which it would be mutated (let's call the strain "one-armed bandit"). Parts present on this plasmid would cause the protein to be attached to outer bacterial membrane, where the selection would occur. Such selection system would allow us to search for antibodies with new specificities or screen protein libraries. 1. The "hunter" proteinWe developed a method of selecting the most interacting protein (let's call the protein "hunter"). It may seem similar to the two-hybrid system, except that it doesn't require putting both "hunter" and "prey" in the same cell of "one-armed bandit" and therefore only "hunter" protein is mutated. Moreover, cells expressing different variants of "hunter" protein compete for the same bait. Interaction between "hunter" and "prey" is the basis of selection. This forces "hunter" protein to be attached to cell surface, so all hunter constructs are fused with fragment of OmpA (outer membrane protein). In this way "hunter" is presented on E. coli outer membrane, which allows it to interact with "prey" added to liquid culture medium. Fig. 1. Variants of the selection system using two parts of TEM-1 β-lactamase (alpha and omega).Selection pressure is needed to let survive only cells with the best interacting proteins. We have used TEM-1 β-lactamase (protein responsible for resistance to β-lactam antibiotics such as ampicillin) split into two complementing fragments: alpha and omega. Those fragments do not form active complexes spontaneously. Antibiotic resistance is achieved only when alpha and omega are in close proximity – i.e. when they are connected to two strongly interacting proteins. So "hunter" protein connected with one β-lactamase fragment will catch "prey" protein connected to another and will allow survival of the cell in ampicillin containing medium. Cell line carrying the best hunter protein will have selection advantage over others. Fig. 2. The selection system at work: 1. "One-armed bandit" mutates hunter protein; 2. Expression of mutated hunters on the surface of bacteria; 3. Adding prey; 4. The best hunters survive.In order to confirm that this system works we have chosen two small strongly interacting proteins B domain of Staphylococcal protein A and ZSPA1 (formerly denoted as A and Z respectively). The A protein is the famous protein from Staphylococcus aureus which binds to constant fragments of IgG antibodies and has many uses in molecular biology. The Z protein is its artificially created close relative [PMID:15238637]. Apart from interacting with the A protein the Z protein tends to aggregate (this interaction is much weaker than with A though). We have created many variants of construct based on pACYC177 vector (low copy – 10 copies per cell) with IPTG-induced promoter. They contain OmpA fragment, A and Z proteins and β-lactamase fragments in various combinations. Most of our constructs contain duplicated B domain (we call it A), but for some purposes we used single A protein (A delta). Lists of pACYC177 constructs:
Expresion of fusion protein Omp_omega_deltaA_alpha in TOP10 strain was confirmed by Western blotting using anti-A antibody [LINK]. It reacted with bands of different molecular weights, probably due to degradation of fusion protein by intrinsic E. coli proteases. Therefore we used the same construct to transform Rosetta strain, which lacks a set of proteases and repeated Western blot [link]. There weren't any important differences. We tested also for presence of Omp_omega_deltaA_alpha on bacterial surface. 2. Selection2.1. "Prey"We developed a group of constructs used for overexpression and purification of "prey". For this purpose we used pET15b vector with N-terminally His-tagged prey proteins. We have created:
3. The "one-armed bandit"The ideaWe intended to create "one-armed bandit" strain, which would randomize target protein sequence – nucleotides would be shuffled randomly in the same way it happens in popular hazard game. The simplest "one-armed bandit" strain is one of standard mutator E. coli strains without polymerase error correction activity or strain without DNA repair systems. It’s not optimal though - high mutation frequency in the whole bacterial genome would introduce some variance into our sequence, but would also cause problems with selection. Instead of screening for protein interactions we would most likely obtain selection-resistant strain. So we wanted to narrow scope of mutations to a small well defined DNA fragment preferably carried on plasmid. Since at the beginning of our project we focused on antibodies, the idea of using AID (Activation Induced Deaminase) protein came right away. The AID protein is active in mammal lymphocytes, where it causes somatic hypermutation – an increase of mutation level in antibody coding sequences. Moreover there is a publication [PMID:12097915] demonstrating AID activity in E. coli cells. But that wasn’t yet what we wanted because AID mutated all highly-transcribed E. coli genes. We needed to find a way to target it to a specific DNA region. AID prefers single-stranded DNA that appears in highly-transcribed loci. So we needed to make our DNA sequence a highly transcribed one (preferably achieve the highest transcription level in the cell). For this purpose we wanted to test mutation rate in a sequence transcribed from T7 promoter using transcriptional fusion between AID and T7 RNA polymerase. We went a step forward and created translational fusion between AID and T7 RNA polymerase. T7 polymerase traverses the DNA fragment containing T7 promoter and carries AID, which introduces mutations. AID is a small protein and its closest homologues form oligomers. So we needed to consider such possibility and we created molecular device containing both free AID and AID-T7 fusion. We hoped that AID-T7 fusion would recruit free AID to DNA sequence containing T7 promoter. To sum up we have created following molecular devices on pMPMT5 plasmid under arabinose promoter:
To test various variants of AID we needed proper reporter system. We have used alpha-complementing β-galactosidase fragment under control of T7 promoter. We used one-copy plasmid pZC320 (minireplicon of plasmid F), which contained this fragment. After obtaining and induction of cotransformants carrying one of AID devices and reporter plasmid, we hoped to get some white colonies on X-gal plates, indicating mutated clones. Fig. 1. Our reporter system for checking site-specificity of AID-induced mutationspBAD - arabinose promoter; pT7 - T7 promoter; L - linker; RBS - sequence coding Ribosomal Binding Site; TAXI=LB+Tetracycline+Ampicillin+IPTG+X-gal Simultaneously we carried out the rifampicin test (plated liquid cultures of tested strains on plates containing 300 μg/mL rifampicin) to check mutation level in whole genome of tested strains. 2. ResultsWe have obtained various numbers of white clones using different AID encoding devices but sequencing of β-galactosidase gene from those clones revealed no mutations. It has to be a flaw in our reporter system. It seems that expressed β-galactosidase fragment encoded on pZC320 plasmid is somehow switched off. We have sequenced large fragments of many white clones of pZC320 – no mutations, no clues. Probowalismy zmienic gen reporterowy na GFP lub RFP ale nasze usilowania nie daly rezultatu - link do notebooka. The test was carried out in two E. coli strains: Top10 and GM2163. The latter has damaged Dam and Dcm methyltransferases so DNA repair systems relying on their activity are unable to repair mismatches created by AID. The results obtained so far are presented in table below:
Interesting that although results of β-galactosidase activity test (blue and white colonies) didn't give any information on mutation rate, they differed between strains bearing various AID variants and these results were almost identical between TOP10 and GM2163. Ciekawe jest to ze choc wyniki biale niebieskie nie daly nam zadnej informacji na temat powstawnia mutacji to roznily sie one miedzy szczepami niosacymi rozne warianty AIDu i te wyniki byly prawie idealnie powtarzalne pomiedzy powtorzeniami obejmujacymi nas dwa rozne szczepy e. coli staowane przez nas. Przykladowe wyniki z notebooka tutaj: bluewhite, https://2008.igem.org/Team:Warsaw/Calendar-Main/18_June_2008. Nie mamy pojecia dlaczego tak sie dzieje.4. Ogulne konkluzje i planyOur long-term plan is to replace A and Z proteins with antibody fragments and antigen but for now we need to check if it's working. To sequence the A protein we will introduce mutations which will make interaction with Z impossible. We will introduce constructs carrying mutated A sequences to "one-armed bandit" strain – we want to check if and when reversion to wild type A will occur in mutant mixture. Niestety nie udalo nam sie uzyskac pozadanych mutantow (link)i ze wzgledu na brak czasu nie jestesmy w stanie w tej edycji igem ich otrzymac. Probowalismy takzesprawdzic czy obecnosci selekcji gdy caly nasz uklad dziala w szczepie mutatorowym spowoduje powstanie mutacji ulatwiajacych oddzialywanie miedzy a i z lub sprawiajacych ze fragmenty β laktamazy moga sie laczyc spontanicznie - rowniez bez skutku(link) The simplest version of this experiment – mixing of two existing strains, isolating plasmid DNA and assessing strain proportions using restriction digests gave very promising results. After mixing equal amounts of OmpA_alpha and OmpA_A_alpha and using our selection system we have isolated only plasmid carrying OmpA_A_alpha (this experiment was also successful for mixture of OmpA_omega and OmpA_A_omega).
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