Difference between revisions of "Team:Yale/notebook"
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− | + | <li class="submenu"><a href="notebook">Notebook</a> | |
− | <li class="submenu"><a href=" | + | |
<ul> | <ul> | ||
− | <li><a href="https://2015.igem.org/Team:Yale/ | + | <li><a href="https://2015.igem.org/Team:Yale/notebook" alt="Weekly">Weekly</a></li> |
− | <li><a href="https:// | + | <li><a href="https://static.igem.org/mediawiki/2015/f/fb/Yale_iGEM_Project_Summary_2015.pdf" alt="PDF Summary">PDF Summary</a></li> |
</ul> | </ul> | ||
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+ | <li class="submenu"><a href="collaborations">Collaborations</a></li> | ||
<li class="submenu"><a href="practices">Human Practices</a> | <li class="submenu"><a href="practices">Human Practices</a> | ||
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<li><a href="https://2015.igem.org/Team:Yale/practices#lgbtq" alt="LGBTQ Survey">LGBTQ Survey</a></li> | <li><a href="https://2015.igem.org/Team:Yale/practices#lgbtq" alt="LGBTQ Survey">LGBTQ Survey</a></li> | ||
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− | <li><a href="https://2015.igem.org/Team:Yale/ | + | <li><a href="https://2015.igem.org/Team:Yale/Attributions" alt="Acknowledgements">Attributions</a></li> |
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<section class="content__section"> | <section class="content__section"> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf" class="file__link">See Our Lab Notebook</a></p> |
− | <h2 id="overview"> | + | <h2 id="overview" class="text-center">Lab Notebook: Weekly Summaries</h2> |
</section> | </section> | ||
<section class="content__section"> | <section class="content__section"> | ||
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<p>The first step in our plan is to determine optimal growth conditions, transformation protocols, and selection screens for our strains. Once this is complete, we can test the effectiveness of our identified promoters by placing them upstream of a fluorescent reporter; we will use the yellow-fluorescent citrine protein since its emission wavelength does not overlap with the autofluorescence wavelengths of our cyanobacteria. After identifying the most effective promoter (lowest leakiness and highest expression level when induced), we can replace the citrine gene in our construct with our synthesized beta-homolog genes. Testing the effectiveness of our recombinases will be a bit of a challenge; we need an assay to be implemented in each organism that will allow us to quantify mutagenesis efficiency.</p> | <p>The first step in our plan is to determine optimal growth conditions, transformation protocols, and selection screens for our strains. Once this is complete, we can test the effectiveness of our identified promoters by placing them upstream of a fluorescent reporter; we will use the yellow-fluorescent citrine protein since its emission wavelength does not overlap with the autofluorescence wavelengths of our cyanobacteria. After identifying the most effective promoter (lowest leakiness and highest expression level when induced), we can replace the citrine gene in our construct with our synthesized beta-homolog genes. Testing the effectiveness of our recombinases will be a bit of a challenge; we need an assay to be implemented in each organism that will allow us to quantify mutagenesis efficiency.</p> | ||
<p>While all of this is going on, we will also need to knock out the mutS gene in each of our organisms. mutS is involved in identifying nucleotide mismatches during DNA replication. Since MAGE is founded upon such mismatches, it is in our best interest to allow them to go unnoticed by the cell's DNA proofreading systems. Silencing mutS should allow us to do this.</p> | <p>While all of this is going on, we will also need to knock out the mutS gene in each of our organisms. mutS is involved in identifying nucleotide mismatches during DNA replication. Since MAGE is founded upon such mismatches, it is in our best interest to allow them to go unnoticed by the cell's DNA proofreading systems. Silencing mutS should allow us to do this.</p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=2" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>For Cyanobacteria, Dan inoculated both Synechocystis sp. 6803 and UTEX 2973 in BG-11. Along with this, Danny read literature and determined the best proteins to use for increasing the efficiency of MAGE in cyanobacteria. Colin searched for protocols that could be used for transformation, growth, and various other important processes.</p> | <p>For Cyanobacteria, Dan inoculated both Synechocystis sp. 6803 and UTEX 2973 in BG-11. Along with this, Danny read literature and determined the best proteins to use for increasing the efficiency of MAGE in cyanobacteria. Colin searched for protocols that could be used for transformation, growth, and various other important processes.</p> | ||
<p>For the lab overall, we attempted to electroporate various plasmids into E. Coli to improve our technique. However, these efforts were met with limited success. </p> | <p>For the lab overall, we attempted to electroporate various plasmids into E. Coli to improve our technique. However, these efforts were met with limited success. </p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=9" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>6) Flp cuts out kanR cassette, leaving an FRT site scar (Note: Flp-containing plasmid also contains another selectable marker gene, such as spcR)</p> | <p>6) Flp cuts out kanR cassette, leaving an FRT site scar (Note: Flp-containing plasmid also contains another selectable marker gene, such as spcR)</p> | ||
<p>7) Remove Flp-containing plasmid by heat shock</p> | <p>7) Remove Flp-containing plasmid by heat shock</p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=11" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>Our rhizobium transformation experiments gave us mixed results. Using electroporation, R. tropici was able to take up the KT230 plasmid, but S. meliloti 356, 370, and 371 demonstrated kan and spec resistance and we were not able to determine whether the transformation was successful for those strains. We also experimented with conjugation as an alternative transformation method. We found a protocol for conjugating E. coli to UTEX 2973 and began to incubate E. coli containing pKT230.2 When UTEX 2973 reaches OD750 0.5, we will proceed with conjugation.</p> | <p>Our rhizobium transformation experiments gave us mixed results. Using electroporation, R. tropici was able to take up the KT230 plasmid, but S. meliloti 356, 370, and 371 demonstrated kan and spec resistance and we were not able to determine whether the transformation was successful for those strains. We also experimented with conjugation as an alternative transformation method. We found a protocol for conjugating E. coli to UTEX 2973 and began to incubate E. coli containing pKT230.2 When UTEX 2973 reaches OD750 0.5, we will proceed with conjugation.</p> | ||
<p>We performed several rhizobium antibiotic resistance assays to determine whether our strains of rhizobium have natural resistance to certain antibiotics. The results suggested that none of our strains have kanamycin resistance, but R. tropici and S. meliloti 371 have spectinomycin resistance. We also performed a rifampicin assay to determine whether we could eventually use MAGE to induce resistance to rifampicin in rhizobium. The assay worked with 2x1010 cells, but even 20 uL/mL rifampicin was below the limit of detection (see Fig. 1). Our goal moving forward is to redo this assay at lower concentrations.</p> | <p>We performed several rhizobium antibiotic resistance assays to determine whether our strains of rhizobium have natural resistance to certain antibiotics. The results suggested that none of our strains have kanamycin resistance, but R. tropici and S. meliloti 371 have spectinomycin resistance. We also performed a rifampicin assay to determine whether we could eventually use MAGE to induce resistance to rifampicin in rhizobium. The assay worked with 2x1010 cells, but even 20 uL/mL rifampicin was below the limit of detection (see Fig. 1). Our goal moving forward is to redo this assay at lower concentrations.</p> | ||
− | <p class="text-center"><img src=" | + | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/thumb/7/7b/Antibiotic_assay_rhizo.jpeg/1600px-Antibiotic_assay_rhizo.jpeg"></p> |
<p>We also met with Professor Dellaporta, one of our PIs, about the possibility of using ligation-independent cloning (LIC) as an alternative to Gibson Assembly. With LIC, the BsaI T4 DNA polymerase generates long complimentary sticky ends between the vector and insert and eliminates the need for ligase. The advantage is that one LIC cloning vector can be used repeatedly to build many promoter and beta homolog constructs without PCR amplifying the large vector backbone each time. However, we would need to order new primers and spend a week constructing the LIC vector.</p> | <p>We also met with Professor Dellaporta, one of our PIs, about the possibility of using ligation-independent cloning (LIC) as an alternative to Gibson Assembly. With LIC, the BsaI T4 DNA polymerase generates long complimentary sticky ends between the vector and insert and eliminates the need for ligase. The advantage is that one LIC cloning vector can be used repeatedly to build many promoter and beta homolog constructs without PCR amplifying the large vector backbone each time. However, we would need to order new primers and spend a week constructing the LIC vector.</p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=16" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>We were able to PCR amplify three rhizobium-specific inducible promoters: melA, bacA, and nodF. We also have the Anderson constitutive promoters from the iGEM registry, which we will use for both cyanobacteria and Rhizobia. For both organisms, we started amplifying our control genes of interest (GFP for Rhizobia, citrine for cyanobacteria) with overhangs to the promoters.</p> | <p>We were able to PCR amplify three rhizobium-specific inducible promoters: melA, bacA, and nodF. We also have the Anderson constitutive promoters from the iGEM registry, which we will use for both cyanobacteria and Rhizobia. For both organisms, we started amplifying our control genes of interest (GFP for Rhizobia, citrine for cyanobacteria) with overhangs to the promoters.</p> | ||
<p>Much of our transformations this week were in preparation for Exonuclease and Ligation Independent Cloning (ELIC) or for amplification of broad host range plasmids into E. coli. We are considering using ELIC as a backup or more efficient alternative to Gibson assembly. For ELIC, we chose to work with the plasmid pZE21G as a control experiment; this plasmid along with the chromoprotein amilCP should be able to be successfully assembled. Additionally, we have been experimenting with natural transformation in cyanobacteria and are still waiting for the transformation cultures to grow up more before forming conclusions. Regarding electroporation in E. coli, we are still troubleshooting transformations with our two main plasmids pKT230 and k125000.</p> | <p>Much of our transformations this week were in preparation for Exonuclease and Ligation Independent Cloning (ELIC) or for amplification of broad host range plasmids into E. coli. We are considering using ELIC as a backup or more efficient alternative to Gibson assembly. For ELIC, we chose to work with the plasmid pZE21G as a control experiment; this plasmid along with the chromoprotein amilCP should be able to be successfully assembled. Additionally, we have been experimenting with natural transformation in cyanobacteria and are still waiting for the transformation cultures to grow up more before forming conclusions. Regarding electroporation in E. coli, we are still troubleshooting transformations with our two main plasmids pKT230 and k125000.</p> | ||
− | <p class="text-center">< | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=25" class="file__link">Go to the Lab Notebook</a></p> |
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<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p class="text-center"><img src="https://static.igem.org/mediawiki/2015/6/68/Week6_2.jpeg"></p> | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/6/68/Week6_2.jpeg"></p> | ||
<p>For transformation, we decided to try chemical transformation (CaCl2 method) and conjugation in addition to electroporation. To address the issues with contamination, we submitted 16S sequencing of master and working stocks of all our strains and of unexpected growth on selective plates and verified that the stocks we were using were in fact the strains we believed them to be.</p> | <p>For transformation, we decided to try chemical transformation (CaCl2 method) and conjugation in addition to electroporation. To address the issues with contamination, we submitted 16S sequencing of master and working stocks of all our strains and of unexpected growth on selective plates and verified that the stocks we were using were in fact the strains we believed them to be.</p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=39" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>The Rhizobium team also conducted selection assays to determine which antibiotics are most effective against Rhizobium tropici CIAT and Sinorhizobium meliloti 1021. Holly obtained inconclusive results in her selection assays (the assays report different resistances for what is supposedly the same organism), which may be an indication that the frozen stocks from which she was working are contaminated. Holly will conduct a colony PCR of the samples’ 16S region and send the products for sequencing. Since every prokaryotic species has a unique 16S sequence, this experiment should provide a definitive answer as to whether or not the frozen stocks are contaminated. Holly and Jessica continued working out transformation protocols for the strains, focusing mainly on conjugation. They conducted multiple conjugation experiments, along with an electroporation, and will analyze the results next week. They also conducted a centrifugation experiment in which they centrifuged CIAT 899 and Sm 356 at different centrifugation speeds; this was to determine which centrifugation speed to do their electroporations at (Fig. 2). Lionel spent much of his time in the Dellaporta lab working out LIC procedures. LIC is another high-throughput DNA assembly method which would provide an alternative to Gibson assembly.</p> | <p>The Rhizobium team also conducted selection assays to determine which antibiotics are most effective against Rhizobium tropici CIAT and Sinorhizobium meliloti 1021. Holly obtained inconclusive results in her selection assays (the assays report different resistances for what is supposedly the same organism), which may be an indication that the frozen stocks from which she was working are contaminated. Holly will conduct a colony PCR of the samples’ 16S region and send the products for sequencing. Since every prokaryotic species has a unique 16S sequence, this experiment should provide a definitive answer as to whether or not the frozen stocks are contaminated. Holly and Jessica continued working out transformation protocols for the strains, focusing mainly on conjugation. They conducted multiple conjugation experiments, along with an electroporation, and will analyze the results next week. They also conducted a centrifugation experiment in which they centrifuged CIAT 899 and Sm 356 at different centrifugation speeds; this was to determine which centrifugation speed to do their electroporations at (Fig. 2). Lionel spent much of his time in the Dellaporta lab working out LIC procedures. LIC is another high-throughput DNA assembly method which would provide an alternative to Gibson assembly.</p> | ||
<p class="text-center"><img src="https://static.igem.org/mediawiki/2015/4/48/Week7_3.jpeg"></p> | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/4/48/Week7_3.jpeg"></p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=43" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>For the conjugations in rhizobia, we sequenced the colonies that grew on the conjugant plates and determined that the colonies were E. coli contaminants. We redid the conjugation, and the results were inconclusive because the negative controls were still able to grow on the antibiotic resistant plates, even when the antibiotic concentration was increased. To continue off of previous work, we redid the antibiotic assays, both in liquid culture and on solid agar plates for verification. We re-streaked strains obtained from the Jacobs-Wagner lab in case our stock cultures were contaminated. To troubleshoot our contamination issues, we experimented with growing the Rhizobia in LB instead of TSB, which has free phosphates that could cause the antibiotics to be less effective (Fig. 2).</p> | <p>For the conjugations in rhizobia, we sequenced the colonies that grew on the conjugant plates and determined that the colonies were E. coli contaminants. We redid the conjugation, and the results were inconclusive because the negative controls were still able to grow on the antibiotic resistant plates, even when the antibiotic concentration was increased. To continue off of previous work, we redid the antibiotic assays, both in liquid culture and on solid agar plates for verification. We re-streaked strains obtained from the Jacobs-Wagner lab in case our stock cultures were contaminated. To troubleshoot our contamination issues, we experimented with growing the Rhizobia in LB instead of TSB, which has free phosphates that could cause the antibiotics to be less effective (Fig. 2).</p> | ||
<p class="text-center"><img src="https://static.igem.org/mediawiki/2015/0/00/Week8_2.jpeg"></p> | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/0/00/Week8_2.jpeg"></p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=66" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p class="text-center"><img src="https://static.igem.org/mediawiki/2015/2/29/Week9_2.jpeg"></p> | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/2/29/Week9_2.jpeg"></p> | ||
<p class="text-center"><img src="https://static.igem.org/mediawiki/2015/7/7e/Week9_3.jpeg"></p> | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/7/7e/Week9_3.jpeg"></p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=73" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p>Ariel and Natalie also worked to assemble promoter-citrine constructs and amplify beta-homolog biobricks for submission to the parts registry. This effort will continue in the following weeks and when all of the undergraduate researchers return to campus.</p> | <p>Ariel and Natalie also worked to assemble promoter-citrine constructs and amplify beta-homolog biobricks for submission to the parts registry. This effort will continue in the following weeks and when all of the undergraduate researchers return to campus.</p> | ||
<p class="text-center"><img src="https://static.igem.org/mediawiki/2015/0/09/Week10_2.jpeg"></p> | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/0/09/Week10_2.jpeg"></p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf#page=79" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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<p></p> | <p></p> | ||
<p>Promoter-recombinase constructs have been successful made and transformed into S. meliloti and MAGE testing is under way.</p> | <p>Promoter-recombinase constructs have been successful made and transformed into S. meliloti and MAGE testing is under way.</p> | ||
− | <p class="text-center"><img src=" | + | <p class="text-center"><img src="https://static.igem.org/mediawiki/2015/thumb/c/c5/Electroporation_of_pKT230_into_R_tropici.jpeg/1600px-Electroporation_of_pKT230_into_R_tropici.jpeg"></p> |
<p></p> | <p></p> | ||
− | <p class="text-center"><a href=" | + | <p class="text-center"><a href="https://static.igem.org/mediawiki/2015/f/ff/Yale_iGEM_Notebook_2015.pdf" class="file__link">Go to the Lab Notebook</a></p> |
<h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | <h4 class="week_log">Entry for week<a href="#" data-reveal-id="week1">-1</a><a href="#" data-reveal-id="week2">1</a><a href="#" data-reveal-id="week3">2</a><a href="#" data-reveal-id="week4">3</a><a href="#" data-reveal-id="week5">4</a><a href="#" data-reveal-id="week6">5</a><a href="#" data-reveal-id="week7">6</a><a href="#" data-reveal-id="week8">7</a><a href="#" data-reveal-id="week9">8</a><a href="#" data-reveal-id="week10">9</a><a href="#" data-reveal-id="week11">10</a><a href="#" data-reveal-id="week12">10+</a> | ||
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Latest revision as of 03:26, 19 September 2015
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