RyanModlin (Talk | contribs) |
RyanModlin (Talk | contribs) |
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<li><h3 id="top_anchor"> Group <h3></li> | <li><h3 id="top_anchor"> Group <h3></li> | ||
<li><a href="#GAHR"> GA and HR </a></li> | <li><a href="#GAHR"> GA and HR </a></li> | ||
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<li><a href="#OGA"> OE-PCR </a></li> | <li><a href="#OGA"> OE-PCR </a></li> | ||
<li><a href="#YMCCL"> YMC and Cre-Lox </a></li> | <li><a href="#YMCCL"> YMC and Cre-Lox </a></li> | ||
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<div class="flex-col"> | <div class="flex-col"> | ||
<button style="margin-bottom:10vh" class="buttonnotebook3" onclick="openInfoBlock1('Over', this, '#e91b63')" id="defaultOpen">Week by Week Overview</button> | <button style="margin-bottom:10vh" class="buttonnotebook3" onclick="openInfoBlock1('Over', this, '#e91b63')" id="defaultOpen">Week by Week Overview</button> | ||
− | <button style="margin-bottom:10vh" class="buttonnotebook3" onclick="openInfoBlock1('Deta', this, '#e91b63')">In Detail</button> | + | <button style="margin-bottom:10vh" class="buttonnotebook3" onclick="openInfoBlock1('Deta', this, '#e91b63')" id="alternateOpen">In Detail</button> |
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<button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Ove', this, '#e91b63')" id="defaultOpen9">Overview</button> | <button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Ove', this, '#e91b63')" id="defaultOpen9">Overview</button> | ||
<button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Oep', this, '#e91b63')">Gene Amplification</button> | <button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Oep', this, '#e91b63')">Gene Amplification</button> | ||
<button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Rib', this, '#e91b63')">Riboswitch</button> | <button class="buttonnotebook9" onclick="openInfoBlock9('Jul30Rib', this, '#e91b63')">Riboswitch</button> | ||
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<div id="Jul30Gib" class="buttoncontent9"> | <div id="Jul30Gib" class="buttoncontent9"> | ||
<p>The first step to prepare for Gibson Assembly was to linearize pUC19 and pXRL2 via PCR. We performed PCR Over the course of this week we had bands in strange and random locations. We were led to believe our plasmids were not what we believed them to be. Eventually it was discovered that we were using an incorrect amount of Q5 2x master mix which caused the PCR to not work properly.</p> | <p>The first step to prepare for Gibson Assembly was to linearize pUC19 and pXRL2 via PCR. We performed PCR Over the course of this week we had bands in strange and random locations. We were led to believe our plasmids were not what we believed them to be. Eventually it was discovered that we were using an incorrect amount of Q5 2x master mix which caused the PCR to not work properly.</p> | ||
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<button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Ove', this, '#e91b63')" id="defaultOpen10">Overview</button> | <button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Ove', this, '#e91b63')" id="defaultOpen10">Overview</button> | ||
<button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Oep', this, '#e91b63')">Gene Amplification</button> | <button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Oep', this, '#e91b63')">Gene Amplification</button> | ||
<button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Rib', this, '#e91b63')">Riboswitch</button> | <button class="buttonnotebook10" onclick="openInfoBlock10('Aug6Rib', this, '#e91b63')">Riboswitch</button> | ||
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<p>After double checking that we were using the right volumes for our PCR reaction, we were able to linearize pUC19 and pXRL2. We then confirmed this by running it on a 1% agarose gel seen below.</p> | <p>After double checking that we were using the right volumes for our PCR reaction, we were able to linearize pUC19 and pXRL2. We then confirmed this by running it on a 1% agarose gel seen below.</p> | ||
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<button class="buttonnotebook12" onclick="openInfoBlock12('Aug13Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook12" onclick="openInfoBlock12('Aug13Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook12" onclick="openInfoBlock12('Aug13Oep', this, '#e91b63')">Gene Amplification</button> | <button class="buttonnotebook12" onclick="openInfoBlock12('Aug13Oep', this, '#e91b63')">Gene Amplification</button> | ||
<button class="buttonnotebook12" onclick="openInfoBlock12('Aug13Rib', this, '#e91b63')">Riboswitch</button> | <button class="buttonnotebook12" onclick="openInfoBlock12('Aug13Rib', this, '#e91b63')">Riboswitch</button> | ||
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<p>After successfully linearizing pUC19 and pXRL2, we repeated the same experiment with larger volumes to get more product for future use. Using this product, we performed several DPN1s and clean and concentrate experiments. The first four tests were failures. We used both our advisor’s reagents and Zymo’s reagents. Our solution that eventually worked was to prewarm the 30 uL water we were using as the elution buffer and let it sit for several minutes, in the final step. On the fifth experiment, the clean and concentrate worked but still not very well. We tried one more time using only 10 uL water to elute and got sufficient concentrations for our Gibson reactions.</p> | <p>After successfully linearizing pUC19 and pXRL2, we repeated the same experiment with larger volumes to get more product for future use. Using this product, we performed several DPN1s and clean and concentrate experiments. The first four tests were failures. We used both our advisor’s reagents and Zymo’s reagents. Our solution that eventually worked was to prewarm the 30 uL water we were using as the elution buffer and let it sit for several minutes, in the final step. On the fifth experiment, the clean and concentrate worked but still not very well. We tried one more time using only 10 uL water to elute and got sufficient concentrations for our Gibson reactions.</p> | ||
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<button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Oep', this, '#e91b63')">Gene Amplification</button> | <button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Oep', this, '#e91b63')">Gene Amplification</button> | ||
<button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Yea', this, '#e91b63')">YMC</button> | <button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Yea', this, '#e91b63')">YMC</button> | ||
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<button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Rib', this, '#e91b63')">Riboswitch</button> | <button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Rib', this, '#e91b63')">Riboswitch</button> | ||
<button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Oth', this, '#e91b63')">Other</button> | <button class="buttonnotebook13" onclick="openInfoBlock13('Aug20Oth', this, '#e91b63')">Other</button> | ||
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<p>Now that we have <i>lox-URA3-lox</i>, linearized pUC19, and amplified homologous arms, we are able to begin Gibson Assembly. We did two gibsons this week. The first Gibson includes the parts mentioned above and the second is our linearized pXRL2 along with several gene fragments: ADR, FDX, Delta7H, p450SCC, and 3BH. After combining the neccessary components with the Gibson Master Mix, we put it in the PCR machine for an hour and then stored it on ice. The following day we inoculated the gibson products on high copy LB-AMP plates. The pUC19 plate grew normally but the pXRL2 plate lawned. <br><br> | <p>Now that we have <i>lox-URA3-lox</i>, linearized pUC19, and amplified homologous arms, we are able to begin Gibson Assembly. We did two gibsons this week. The first Gibson includes the parts mentioned above and the second is our linearized pXRL2 along with several gene fragments: ADR, FDX, Delta7H, p450SCC, and 3BH. After combining the neccessary components with the Gibson Master Mix, we put it in the PCR machine for an hour and then stored it on ice. The following day we inoculated the gibson products on high copy LB-AMP plates. The pUC19 plate grew normally but the pXRL2 plate lawned. <br><br> | ||
We then picked colonies from the pUC19 plate and transformed it in liquid cultures. We then performed colony PCR to check if our Gibson assembly was successful. It likely did not work. The gel showed very bright bands in the wrong areas but a faint band where our desired product would be. With this information, we made streak plates of the potential successful colonies in hopes to isolate what we believe to be our desired gibson product and threw the rest of the cultures out.</p> | We then picked colonies from the pUC19 plate and transformed it in liquid cultures. We then performed colony PCR to check if our Gibson assembly was successful. It likely did not work. The gel showed very bright bands in the wrong areas but a faint band where our desired product would be. With this information, we made streak plates of the potential successful colonies in hopes to isolate what we believe to be our desired gibson product and threw the rest of the cultures out.</p> | ||
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<div id="Aug20Yea" class="buttoncontent13"> | <div id="Aug20Yea" class="buttoncontent13"> | ||
<p>After the Gibson team removed one loxP from pXLR2, we used the KLD enzyme mix from a site-directed mutagenesis kit to recircularize the plasmid. We plated the transformants, and then made liquid cultures from colonies two days later. We designed and ordered primers for colony PCR to check that loxP was properly removed. We prepared for yeast mediated cloning by preparing 10X TE buffer and making liquid cultures of <i>Y. lipolytica</i> and <i>S. cerevisiae</i>.</p> | <p>After the Gibson team removed one loxP from pXLR2, we used the KLD enzyme mix from a site-directed mutagenesis kit to recircularize the plasmid. We plated the transformants, and then made liquid cultures from colonies two days later. We designed and ordered primers for colony PCR to check that loxP was properly removed. We prepared for yeast mediated cloning by preparing 10X TE buffer and making liquid cultures of <i>Y. lipolytica</i> and <i>S. cerevisiae</i>.</p> | ||
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<button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Oep', this, '#e91b63')">Gene Amplification</button> | <button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Oep', this, '#e91b63')">Gene Amplification</button> | ||
<button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Yea', this, '#e91b63')">YMC</button> | <button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Yea', this, '#e91b63')">YMC</button> | ||
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<button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Rib', this, '#e91b63')">Riboswitch</button> | <button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Rib', this, '#e91b63')">Riboswitch</button> | ||
<button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Oth', this, '#e91b63')">Other</button> | <button class="buttonnotebook14" onclick="openInfoBlock14('Aug27Oth', this, '#e91b63')">Other</button> | ||
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We also carried out another Colony PCR of our old gibson in order to isolate our desired plasmid. It failed. | We also carried out another Colony PCR of our old gibson in order to isolate our desired plasmid. It failed. | ||
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<p>We made new yeast inoculations and attempted YMC for the first time as a test for the protocol. Sadly, we forgot to include the plasmid backbone in the reaction so it failed. We performed YMC again, being sure to include all components, and allowed the transformed yeast to grow on selective (leucine-deficient) plates for several days. </p> | <p>We made new yeast inoculations and attempted YMC for the first time as a test for the protocol. Sadly, we forgot to include the plasmid backbone in the reaction so it failed. We performed YMC again, being sure to include all components, and allowed the transformed yeast to grow on selective (leucine-deficient) plates for several days. </p> | ||
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<button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Ove', this, '#e91b63')" id="defaultOpen15">Overview</button> | <button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Ove', this, '#e91b63')" id="defaultOpen15">Overview</button> | ||
<button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Yea', this, '#e91b63')">YMC</button> | <button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Yea', this, '#e91b63')">YMC</button> | ||
<button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Bio', this, '#e91b63')">Biobrick & Terminator</button> | <button class="buttonnotebook15" onclick="openInfoBlock15('Sep3Bio', this, '#e91b63')">Biobrick & Terminator</button> | ||
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<div id="Sep3Ove" class="buttoncontent15"> | <div id="Sep3Ove" class="buttoncontent15"> | ||
− | <p></p> | + | <p>As the start of the school year grew closer, we saw most of our teammates busy in lab trying to finish their lab group’s tasks before the chaos of the school year starts. For those not in lab, they were busy working on our iGEM wiki. Now that progress is being made on experiments, many teammates spent the week updating their online lab notebook to later add to the wiki. </p> |
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At the end of the week, our sequencing results came. We observed that our gene fragments and homologous arms were not being inserted into the plasmid correctly. Each sample, although the right size, was incorrect and it seemed as if the plasmid was binding with itself. This led to more questions as to what went wrong. We first went back and double checked our design to make sure it was correct. It was. It wasn’t till next week when we figured out the issue. | At the end of the week, our sequencing results came. We observed that our gene fragments and homologous arms were not being inserted into the plasmid correctly. Each sample, although the right size, was incorrect and it seemed as if the plasmid was binding with itself. This led to more questions as to what went wrong. We first went back and double checked our design to make sure it was correct. It was. It wasn’t till next week when we figured out the issue. | ||
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<div id="Sep3Yea" class="buttoncontent15"> | <div id="Sep3Yea" class="buttoncontent15"> | ||
− | <p>Our colony PCR primers arrived, so we were able to check whether loxP was properly cut out using colony PCR. We made inoculations of E. coli carrying our pOPPY-XLR2-yX plasmid. We also made streak plates and liquid cultures using colonies from our previous round of YMC. We tested our “yeast miniprep protocol” using these liquid cultures, but received very weird (negative) DNA concentrations when we NanoDropped the products. We also intended to perform a miniprep on the E. coli carrying our pOPPY-XLR2-yX plasmid, but we had contamination in our negative control so we repeated the inoculations. These also ended up having contamination, so we asked our TA, McKenna Hicks, to give us a refresher on aseptic technique before repeating them again. We saw growth on our streak plates. We repeated the recircularization of pOPPY-XLR2-yX using site-directed mutagenesis, and plated transformed E. coli on LB/AMP to select for transformants.</p> | + | <p>Our colony PCR primers arrived, so we were able to check whether loxP was properly cut out using colony PCR. We made inoculations of <i>E. coli</i> carrying our pOPPY-XLR2-yX plasmid. We also made streak plates and liquid cultures using colonies from our previous round of YMC. We tested our “yeast miniprep protocol” using these liquid cultures, but received very weird (negative) DNA concentrations when we NanoDropped the products. We also intended to perform a miniprep on the <i>E. coli</i> carrying our pOPPY-XLR2-yX plasmid, but we had contamination in our negative control so we repeated the inoculations. These also ended up having contamination, so we asked our TA, McKenna Hicks, to give us a refresher on aseptic technique before repeating them again. We saw growth on our streak plates. We repeated the recircularization of pOPPY-XLR2-yX using site-directed mutagenesis, and plated transformed <i>E. coli</i> on LB/AMP to select for transformants.</p> |
</div> | </div> | ||
<div id="Sep3Bio" class="buttoncontent15"> | <div id="Sep3Bio" class="buttoncontent15"> | ||
− | <p></p> | + | <p>After having a sufficient amount of our genes and having received our restriction enzymes (EcoR1-HF and Sca1), we were able to begin assembling our BioBricks together. We followed the protocols provided by iGEM for our restriction digest, ligation, and transformation. We began with the restriction digest protocol and adjusted for a lack of resources. Since we did not have the ideal buffer that iGEM recommended (NEB Buffer 2), we used the buffer we had in stock - CutSmart Buffer. One drawback of the buffer was its enzymatic activity of 50% for PstI, so to account for this, we doubled the amount of enzyme used. We then double digested the Psb1C3 backbone and both the 7-dehydrocholesterol reductase (Delta7) gene and the adrenodoxin-NADP+ reductase (ADR) gene, which we then ligated together to create a plasmid.</p> |
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<div id="Sep3Rib" class="buttoncontent15"> | <div id="Sep3Rib" class="buttoncontent15"> | ||
− | <p>Over the weekend our final Y. lipolytica plating showed a large amount of growth, indicating that our old stock was indeed competent. Our E. coli amplification, however, showed no growth. It was found that this was because of an error in the media used. To save time, we thawed our previous glycerol stock of transformed cells and used it to inoculate a culture for outgrowth and plasmid isolation. DNA yields of this culture were lower than previous amplifications. We reasoned that this was due to the glycerol stock not having been plated on selective media before freezing. This would have resulted in some population of non-transformants existing in the stock and lowering plasmid yields. To remedy this, we plated our glycerol stock on selective media to isolate colonies and inoculated cultures with these colonies. We left these cultures to incubate over the weekend. <br><br> | + | <p>Over the weekend our final <i>Y. lipolytica</i> plating showed a large amount of growth, indicating that our old stock was indeed competent. Our <i>E. coli</i> amplification, however, showed no growth. It was found that this was because of an error in the media used. To save time, we thawed our previous glycerol stock of transformed cells and used it to inoculate a culture for outgrowth and plasmid isolation. DNA yields of this culture were lower than previous amplifications. We reasoned that this was due to the glycerol stock not having been plated on selective media before freezing. This would have resulted in some population of non-transformants existing in the stock and lowering plasmid yields. To remedy this, we plated our glycerol stock on selective media to isolate colonies and inoculated cultures with these colonies. We left these cultures to incubate over the weekend. <br><br> |
We began PCR experiments to amplify our riboswitch inserts in anticipation of our Gibson Assembly trials. Trials initially showed mixed results, which was perplexing since all PCR trials used the same primers and overhangs, but were confirmed as successful on 0.8% agarose gels by the end of the week. Nanodrop analysis gave the following concentrations of PCR products in the table below. <br><br> | We began PCR experiments to amplify our riboswitch inserts in anticipation of our Gibson Assembly trials. Trials initially showed mixed results, which was perplexing since all PCR trials used the same primers and overhangs, but were confirmed as successful on 0.8% agarose gels by the end of the week. Nanodrop analysis gave the following concentrations of PCR products in the table below. <br><br> | ||
<img src="https://static.igem.org/mediawiki/2018/1/10/T--UCSC--Ribo-Table.png" style="width:90%; float:center !important"><br><br> | <img src="https://static.igem.org/mediawiki/2018/1/10/T--UCSC--Ribo-Table.png" style="width:90%; float:center !important"><br><br> | ||
− | We also began out first Gibson Assembly experiments with our amplified inserts and linearized plasmid backbone. After this, we used PCR to confirm the presence of our pOPPY_GFP plasmids by using two of our Sanger sequencing primers and running the generated amplicons against a ladder on a 1.5% agarose gel. We also attempted a series of transformations of E. coli using our 5 Gibson Assembly products. <br><br> | + | We also began out first Gibson Assembly experiments with our amplified inserts and linearized plasmid backbone. After this, we used PCR to confirm the presence of our pOPPY_GFP plasmids by using two of our Sanger sequencing primers and running the generated amplicons against a ladder on a 1.5% agarose gel. We also attempted a series of transformations of <i>E. coli</i> using our 5 Gibson Assembly products. <br><br> |
We also sent off our first samples for Sanger sequencing at the UC Berkeley DNA sequencing facility. With results coming in at the end of the week. Our reads indicated that our GFP gene was functional with no detected SNPs that would hinder our experiments.</p> | We also sent off our first samples for Sanger sequencing at the UC Berkeley DNA sequencing facility. With results coming in at the end of the week. Our reads indicated that our GFP gene was functional with no detected SNPs that would hinder our experiments.</p> | ||
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<button class="buttonnotebook16" onclick="openInfoBlock16('Sep10Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook16" onclick="openInfoBlock16('Sep10Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook16" onclick="openInfoBlock16('Sep10Bio', this, '#e91b63')">Biobrick & Terminator</button> | <button class="buttonnotebook16" onclick="openInfoBlock16('Sep10Bio', this, '#e91b63')">Biobrick & Terminator</button> | ||
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<div id="Sep10Ove" class="buttoncontent16"> | <div id="Sep10Ove" class="buttoncontent16"> | ||
− | <p></p> | + | <p>Another busy week of lab work! Several teammates spent their week with our new best friends: <i>E. coli</i> and <i>Y. lipolytica</i>. We only have a little over a month until the Giant Jamboree! It’s crazy to think about how far our team has come. Speaking of, we received an invitation to speak at TEDx Oakland! We’ve been busy preparing for the TEDx San Jose talk, and we’ve even more excited now knowing that we have two opportunities to discuss our project with the community.</p> |
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Our backup plan would use the D17 plasmid the riboswitch team had been using as a base. With D17, we would attempt to insert <i>lox-ura-lox</i> via KLD reaction and eventually insert our desired plasmid into Yarrowia.</p> | Our backup plan would use the D17 plasmid the riboswitch team had been using as a base. With D17, we would attempt to insert <i>lox-ura-lox</i> via KLD reaction and eventually insert our desired plasmid into Yarrowia.</p> | ||
</div> | </div> | ||
− | <div id=" | + | <div id="Sep10Bio" class="buttoncontent16"> |
− | <p></ | + | <p>Having observed positive results of a team member using electrocompetent <i>E. coli</i> cells we decided to use these cells to perform our transformations with. We transformed the electrocompetent <i>E. coli</i> cells the DNA of our ADR, and Delta7 plasmid. We transformed with electrocompetent <i>E. coli</i> three times during the week and each yielded unsuccessful results, made evident in the absence of growth on the plates. </p> |
− | + | <p>To analyze our results, we first tested the legitimacy of using electrocompetent cells and performed a transformation using the chemicompetent <i>E. coli</i> cells and the ligated Delta7 and ADR plasmids; the results were still unsuccessful. The next step we took was to adjust the protocol again, adding the enzymes and DNA at once within one tube, rather than adding them later in a separate enzyme mastermix.</p> | |
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<div id="Sep10Yea" class="buttoncontent16"> | <div id="Sep10Yea" class="buttoncontent16"> | ||
− | <p>We made | + | <p>We made inoculations using the <i>E. coli</i> carrying pOPPY-XLR2-yX in LB/AMP and the yeast from the previous round of YMC in YNB-CSM-Leu. Colony PCR on <i>E. coli</i> showed bands indicating two colonies had successful transformants. We made streak plates using the two successful transformants, and then went on to make liquid cultures from these colonies. We miniprepped the pOPPY-XLR2-yX plasmid and then performed PCR, mistakenly using Q5 polymerase rather than OneTaq. Q5 polymerase could do the job just fine, it is just much more expensive than OneTaq for simply verifying the size of a fragment! </p> |
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<div id="Sep10Rib" class="buttoncontent16"> | <div id="Sep10Rib" class="buttoncontent16"> | ||
− | <p></p> | + | <p>We isolated more stock of our D17 plasmid for further Gibson Assembly trials. These were miniprepped out to concentrations of ~450 and ~500ng/uL. In order to get growth from the rest of our aptameric inserts, we redid streak plates with higher depositions of transformant. We also redid a transformation of D17 into DH5α to test if our sample of cells was properly competent. These new transformations were unsuccessful, we eventually found this was because of an error in the creation of competent cell stocks.</p> |
+ | <p>While more chemicompetent cell cultures were being produced, we used electrocompetent stocks to preform more transformations on <i>E. coli</i> with our recircularized plasmids. We wrote up a new protocol for electroporation and ran tests to optimize our procedure. </p> | ||
+ | <p>We ran another 50uL linearization PCR to restock and checked this on a gel. Then, we performed 5 more transformations to get our recircularized stocks into <i>E. coli</i>.</p> | ||
</div> | </div> | ||
<div id="Sep10Oth" class="buttoncontent16"> | <div id="Sep10Oth" class="buttoncontent16"> | ||
− | <p>We attempted a yeast plasmid miniprep yet again, this time using S. cerevisiae containing a backbone pXRL2 connected to five progesterone pathway genes. Despite the improvement in our previous attempt, this attempt yielded an unusable sample. We concluded that our procedures may be inadequate.</p> | + | <p>We attempted a yeast plasmid miniprep yet again, this time using <i>S. cerevisiae</i> containing a backbone pXRL2 connected to five progesterone pathway genes. Despite the improvement in our previous attempt, this attempt yielded an unusable sample. We concluded that our procedures may be inadequate.</p> |
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<button class="buttonnotebook17" onclick="openInfoBlock17('Sep17Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook17" onclick="openInfoBlock17('Sep17Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook17" onclick="openInfoBlock17('Sep17Bio', this, '#e91b63')">Biobrick & Terminator</button> | <button class="buttonnotebook17" onclick="openInfoBlock17('Sep17Bio', this, '#e91b63')">Biobrick & Terminator</button> | ||
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<div id="Sep17Ove" class="buttoncontent17"> | <div id="Sep17Ove" class="buttoncontent17"> | ||
− | <p></p> | + | <p>This week, our friend at Family Planning 2020 introduced us to his friend in the Population Council named John Townsend. John scheduled a Skype call with us on September 20th to discuss our project idea as well as potential avenues for development after the iGEM competition ends. He provided us several other contacts to reach out to for an opinion on our next steps and offered to pass our project summary onto his colleagues. John seems really eager to help us move forward with development, and we are so honored to have him as a resource. </p> |
+ | <p>Our other teammates spent another long week in lab and, in their off-time, worked on completing their assigned website pages. We are making great progress! | ||
+ | </p> | ||
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<div id="Sep17Gib" class="buttoncontent17"> | <div id="Sep17Gib" class="buttoncontent17"> | ||
<p>In preparation to start our backup plan, this week we linearized D17. We also attempted to linearize our contaminated <i>lox-ura-lox</i> in an attempt to clean it for future use. As a backup, we reordered <i>lox-ura-lox</i> from IDT in case our clean up failed.</p> | <p>In preparation to start our backup plan, this week we linearized D17. We also attempted to linearize our contaminated <i>lox-ura-lox</i> in an attempt to clean it for future use. As a backup, we reordered <i>lox-ura-lox</i> from IDT in case our clean up failed.</p> | ||
</div> | </div> | ||
− | <div id=" | + | <div id="Sep17Bio" class="buttoncontent17"> |
− | <p></p> | + | <p>Using the newly revised restriction digest protocol, we performed new rounds of restriction digests with the PSb1C3 backbone, the P450scc gene, and the 3BH gene. Then we ligated the results from the restriction digests and performed a transformation with chemicompetent and electrocompetent <i>E. coli</i> cells. None of the transformations yielded successful results.</p> |
+ | <p>The terminators we received (from Hal Alper) were synthetic, which allowed for it to carry a lower amount of base pairs. After discussing our procedure with our lab teaching assistant, we found a fitting method for both using bacterial stabs and for plating them afterwards. </p> | ||
+ | <p>On luria broth high copy plates, we plated Tsynth8, Tsynth30, and TEF1 in <i>E. coli</i> which were left to incubate over the span of nine hours. We also followed this method with our terminators when growing them in <i>S. cerevisiae</i> on a Histidine plate. We were presented with successful results the following day and observed growth of all three terminators on our <i>E. coli</i> plate and then inoculated them in liquid cultures. We then performed a miniprep procedure and then inoculated them in a falcon tube with luria broth and ampicillin to get to the proper ratio of 100 ug/mL in the 5 mL of luria broth. </p> | ||
+ | <p>We then performed another miniprep of the liquid <i>E. coli</i> cultures and continuously tailored the iGEM protocol to fit our experiments. We then analyzed each terminator’s absorbance via nanodrop which yielded us the results necessary to analyze whether or not each terminator would be fit to continue with based on their DNA concentrations; we gathered that TEF1 and Tsynth8 would be the most promising. We then transformed the plasmids from the miniprep procedure from <i>E. coli</i> into <i>Y. lipolytica</i>, with two hour incubation periods after vortexing. </p> | ||
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<p>We attempted many trials to confirm successful site directed mutagenesis. We failed many times do to bad polymerase, conducting colony PCR on yeast as well as bad thermal cycler settings.We also conducted a PCR with Q5 polymerase to relinearize the plasmid in preparation for yeast mediated cloning. The results of that were great! All of the bands were at the expected size of the full plasmid. </p> | <p>We attempted many trials to confirm successful site directed mutagenesis. We failed many times do to bad polymerase, conducting colony PCR on yeast as well as bad thermal cycler settings.We also conducted a PCR with Q5 polymerase to relinearize the plasmid in preparation for yeast mediated cloning. The results of that were great! All of the bands were at the expected size of the full plasmid. </p> | ||
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<div id="Sep17Rib" class="buttoncontent17"> | <div id="Sep17Rib" class="buttoncontent17"> | ||
− | <p></p> | + | <p>Over the course of this week we were able to get platings of <i>E. coli</i> transformed with all 5 of our pOPPY_GFP series plasmids. Growth of these transformants, however, was inconsistent, with multiple platings being required to get colonies for each sample. By the end of the week, only transformants carrying pOPPY_GFP(2), (4), and (5) were able to be isolated enough to grow monoclonal liquid cultures. Upon plasmid isolation and PCR testing with the Rib(f)2 and Rib(r)1 primers our gel images suggested the presence of D17 plasmid in our pOPPY_GFP(3) transformants. Considering these troubling results as well as the fact that liquid cultures were failing to grow, we opted to discard these samples and begin the next week with new transformations.</p> |
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<button class="buttonnotebook18" onclick="openInfoBlock18('Sep24Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook18" onclick="openInfoBlock18('Sep24Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook18" onclick="openInfoBlock18('Sep24Bio', this, '#e91b63')">Biobrick & Terminator</button> | <button class="buttonnotebook18" onclick="openInfoBlock18('Sep24Bio', this, '#e91b63')">Biobrick & Terminator</button> | ||
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<div id="Sep24Ove" class="buttoncontent18"> | <div id="Sep24Ove" class="buttoncontent18"> | ||
− | <p></p> | + | <p>This was a busy week for our iGEM team! Not only was this the first week of the school year, it was also the busiest week of our public engagement work thus far! On Monday, we juggled making preparations for the annual UCSC OPERs Festival, preparing for the TEDx talk in San Jose, and making slides for a school presentation to San Lorenzo Valley High School all happening on the same day. Thankfully, we worked together as a team and accomplished all our goals with flying colors.</p> |
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<div id="Sep24Gib" class="buttoncontent18"> | <div id="Sep24Gib" class="buttoncontent18"> | ||
<p>This week we performed a clean and concentrate on D17. This was successful meaning we could begin to use D17 when <i>lox-ura-lox</i> was ready. In addition we also ran our linearized <i>lox-ura-lox</i> gene and the plasmid <i>lox-ura-lox</i> gene on a gel. It failed.</p> | <p>This week we performed a clean and concentrate on D17. This was successful meaning we could begin to use D17 when <i>lox-ura-lox</i> was ready. In addition we also ran our linearized <i>lox-ura-lox</i> gene and the plasmid <i>lox-ura-lox</i> gene on a gel. It failed.</p> | ||
</div> | </div> | ||
− | <div id=" | + | <div id="Sep24Bio" class="buttoncontent18"> |
− | <p></p> | + | <p>With an absence of successful results from the transformations, we decided to alter the restriction digest protocol again. One of the edits included using the 3.1 NEB buffer, rather than the CutSmart buffer. Using the NEB buffer, PstI had 100% enzymatic activity, whereas EcoRI had 50%, so we used twice as much of EcoRI. Using the newly made protocol, we performed a double restriction digest and ligation to get the plasmids for Cholesterol side-chain cleavage enzyme (P450scc) and 3-beta-hydroxy-Delta(5)-steroid dehydrogenase (3BH). We transformed the ligations with electrocompetent and chemicompetent <i>E. coli</i> cells, and we then got four colonies on the electrocompetent <i>E. coli</i> plate for the plasmid of P450scc. The other plates, which were our transformed chemicompetent <i>E. coli</i>, and our electrocompetent <i>E. coli</i> with 3BH ligation failed. Since we had four colonies that contained our P450scc plasmid, we index plated them, inoculated them into liquid media, and miniprepped out the plasmid. To confirm if the <i>E. coli</i> actually had our P450scc Biobrick plasmid, we performed a colony PCR, and a restriction digest. Both the colony PCR and restriction digest had inconclusive results, and we were not able to tell if the plasmid was actually our P450scc BioBrick. </p> |
− | + | <p>None of the transformations were working, so we tried to alter our restriction digest protocol again. This time instead of using the buffer CutSmart, we used the 3.1 NEB buffer. In this buffer Pst1 has 100% activity, but EcoR1 has 50%, so we used twice as much EcoR1 this time instead of twice as much Pst1. With this new restriction digest protocol we performed a double restriction digest and ligation to get us the plasmids for P450scc and 3BH. We transformed these ligations with electrocompetent and chemicompetent <i>E. coli</i> cells, and this time we got four colonies on the electrocompetent <i>E.coli</i> plate for the BioBrick plasmid of P450scc! The other plates which were our transformed chemicompetent <i>E. coli</i>, and our electrocompetent <i>E. coli</i> with 3BH ligation failed. Since we had four colonies that contained our P450scc plasmid we index plated them, inoculated them into liquid media and miniprepped out the plasmid. To confirm if the <i>E. coli</i> actually had our P450scc Biobrick, we performed a colony PCR, and a restriction digest. Both the colony PCR and restriction digest had inconclusive results, and we were not able to tell if the plasmid was actually our P450scc BioBrick. </p> | |
− | + | <p>Using newly procured T4 DNA ligase and buffer to prevent any implications, since the buffer has a limited, low amount of freeze-thaw cycles. Then we chose colonies from the plates which were isolated and ran a yeast transformation for TEF1, but found that overgrowth had occurred and the results were no longer fit to continue with. </p> | |
− | + | <p>To ensure fluorescence, we recognized that since the <i>S. cerevisiae</i> strain contains the mStrawberry and yCitrene fluorescent proteins, we figured out a way to grow it in a liquid culture to log phase. We would then centrifuge the cells and place the pellet in new YPD with galactose to induce the GAL1 promoter. Then we would let it grow for two to four hours and follow up by testing the fluorescence levels of mStrawberry to yCitrene for the Tsynth8, Tsynth30, and TEF1 in <i>S. cerevisiae</i>.</p> | |
+ | <p>We then restreaked colonies from the overgrown Tsynth8 and Tsynth30 plates from isolated colonies. Then we transformed the TEF1 plates again into <i>Y. lipolytica</i> because the overgrown plates contained zero isolated colonies without signs of contamination. We used 3 uL of the plasmid from the miniprep procedure and transformed <i>Y. lipolytica</i> and 100 uL of it and plated on leucine deficient plates; the plates were left in incubation for two days.</p> | ||
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<div id="Sep24Yea" class="buttoncontent18"> | <div id="Sep24Yea" class="buttoncontent18"> | ||
<p>We clean and concentrated the PCR products and quantified them with a nanodrop with good results. We then prepared the samples for Sanger sequencing and sent them out to Sequetech. In the meantime of waiting for results, we made more liquid stocks of our samples. We received the results and found out that we had successfully removed loxP in sequence alignment. We conducted a trial of yeast mediated cloning as well and incubated them over the weekend.</p> | <p>We clean and concentrated the PCR products and quantified them with a nanodrop with good results. We then prepared the samples for Sanger sequencing and sent them out to Sequetech. In the meantime of waiting for results, we made more liquid stocks of our samples. We received the results and found out that we had successfully removed loxP in sequence alignment. We conducted a trial of yeast mediated cloning as well and incubated them over the weekend.</p> | ||
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<div id="Sep24Rib" class="buttoncontent18"> | <div id="Sep24Rib" class="buttoncontent18"> | ||
− | <p></p> | + | <p>New platings for all 5 transformant population showed successful growth, although colonies were still too clustered to be isolated. We also discovered that our final homologous arm primers had not been ordered, and so attempted to isolate our gene inserts using some restriction sites that were near the binding site of our designed primers. These transformations were unsuccessful, though we were able to produce a glycerol stock of <i>E. coli</i> containing our pOPPY_GFP(1) plasmid.</p> |
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<button class="buttonnotebook19" onclick="openInfoBlock19('Oct1Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook19" onclick="openInfoBlock19('Oct1Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook19" onclick="openInfoBlock19('Oct1Bio', this, '#e91b63')">Biobrick & Terminator</button> | <button class="buttonnotebook19" onclick="openInfoBlock19('Oct1Bio', this, '#e91b63')">Biobrick & Terminator</button> | ||
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− | <p></p> | + | <p>This week, our team started preparing for the Giant Jamboree by creating our presentation slides. With this being the first full week of school, attendance in lab has been spotty. We are all still trying to get back in the routine of school work while also juggling iGEM tasks!</p> |
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<div id="Oct1Gib" class="buttoncontent19"> | <div id="Oct1Gib" class="buttoncontent19"> | ||
− | <p></p> | + | <p>After receiving the <i>lox-ura-lox</i> from IDT, we began our KLD reactions. We ran our KLD reaction with our new clean D17 in the PCR machine. Using the product, we plated the mix on a high copy plate and let it incubate overnight. The next day, we confirmed its growth and began preparation for colony PCR.</p> |
+ | <p> We also attempted to transform our pXRl2 gibson with our desired genes and perform PCR on p450. Both failed.</p> | ||
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− | <p></ | + | <p>Since we were successful in making a colony that contained the Psb1C3 backbone with the electrocompetent <i>E. coli</i>, we did another double digest, ligation, and transformation with the genes 3BH and Delta7. We also did another restriction digest to confirm if the P450scc plasmid that was miniprepped was correct, and we did not get the bands we expected. We had bands at 2.8kb and 1.2kb when we expected bands at 3.2kb and 800bp. Since we were not getting our BioBricks, we consulted one of our PI’s, as to why our transformations were not working. He assumed there was too much salt when we electroporated our cells, which would kill them and explained why we may not get growth on our plates. We did the math and he was right;.There was way too much salt in the DNA that we were transforming our electrocompetent <i>E. coli</i> with and would explain why we rarely ever got growth on transformations performed with electrocompetent <i>E. coli</i> cells. From then on we only transformed with chemicompetent <i>E. coli</i> cells. We tried to perform a transformation with chemicompetent <I>E.coli</i> cells with a ligated plasmid of 3BH. We did these transformations with different concentrations of DNA to see if the amount of DNA that we transformed with was the problem. There was no growth on the plates, so it may not be that the amount of DNA that was the problem. </p> |
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<div id="Oct1Yea" class="buttoncontent19"> | <div id="Oct1Yea" class="buttoncontent19"> | ||
<p>We conducted another trial of yeast mediated cloning with many more colonies due to lack of growth in some of the samples and low DNA concentrations. Then, we tried a colony PCR on the samples but failed. We finally realized that colony PCR did not work on yeast cells due to the presence of exonucleases that degrade the primers.</p> | <p>We conducted another trial of yeast mediated cloning with many more colonies due to lack of growth in some of the samples and low DNA concentrations. Then, we tried a colony PCR on the samples but failed. We finally realized that colony PCR did not work on yeast cells due to the presence of exonucleases that degrade the primers.</p> | ||
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<div id="Oct1Rib" class="buttoncontent19"> | <div id="Oct1Rib" class="buttoncontent19"> | ||
− | <p></p> | + | <p>Considering our poor results using Gibson Assembly, we reasoned that our experiments could be improved now that our new set of primers had come in, including one that would allow us to linearize D17 without the 1bp mismatch we had discovered earlier. Repeating the Gibson Assembly trial and amplifying with PCR suggested the presence of both pOPPY_GFP as well as D17 in each GA sample, despite digest with a 5,000-fold excess of DpnI. </p> |
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<button class="buttonnotebook20" onclick="openInfoBlock20('Oct8Gib', this, '#e91b63')">Gibson Assembly</button> | <button class="buttonnotebook20" onclick="openInfoBlock20('Oct8Gib', this, '#e91b63')">Gibson Assembly</button> | ||
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<button class="buttonnotebook20" onclick="openInfoBlock20('Oct8Yea', this, '#e91b63')">YMC</button> | <button class="buttonnotebook20" onclick="openInfoBlock20('Oct8Yea', this, '#e91b63')">YMC</button> | ||
<button class="buttonnotebook20" onclick="openInfoBlock20('Oct8Bio', this, '#e91b63')">Biobrick & Terminator</button> | <button class="buttonnotebook20" onclick="openInfoBlock20('Oct8Bio', this, '#e91b63')">Biobrick & Terminator</button> | ||
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<div id="Oct8Ove" class="buttoncontent20"> | <div id="Oct8Ove" class="buttoncontent20"> | ||
− | <p></p> | + | <p>We sent out our improved terminator BioBrick for sequencing on October 10th. This is so exciting! We’ve all been working so hard that the little victories mean the most. Both our yeast-mediated cloning team and our Gibson Assembly team accomplished big tasks this week and set themselves up for an even busier next week! The competition is less than a month away and lab work is high priority now. </p> |
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<div id="Oct8Gib" class="buttoncontent20"> | <div id="Oct8Gib" class="buttoncontent20"> | ||
− | <p></p> | + | <p>We did several rounds of colony PCRs, most of which failed. On the last round, colony #4 and colony #17 of 30 both showed up on the gel at the right height. We then created liquid cultures of our successful colonies and grew them up over night. The cultures didn’t grow so we performed a few experiments to try to get it to grow. We created several tests that included longer incubation time, leaving the caps slightly open, and tilting it while it shakes. Nothing worked.</p> |
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− | <div id=" | + | <div id="Oct8Bio" class="buttoncontent20"> |
− | <p>< | + | <p>Since the transformation protocols were not working, we tried a new technique to create our plasmid. We decided to do a KLD (Kinase, Ligase and DpnI enzymes) reaction and hope that our plasmid was made. We performed a KLD transformation because other members of our team were successful in making plasmids this way. When we performed a transformation with this technique with our gene P450scc, there were 15 colonies. We proceeded to inoculate five of the biggest <i>E. coli</i> colonies into liquid media in preparation for a miniprep. We performed a double digest of the miniprepped plasmid and ran it on a gel along with the non-digested miniprepped plasmid to confirm if the plasmids were our BioBrick. For some reason there were no bands in the restriction digest lanes, but in the undigested plasmid lanes there were bands at around 4kb which means that there is some insert in our plasmid. We will perform more double digest to confirm if the P450scc plasmids are correct. </p> |
− | + | <p>In comparing Tsynth8 and Tsynth30 for use in yeast, both demonstrated increased heterologous protein expression and transcript levels greater than 2-fold over the commonly used CYC1 terminator [cite study]. However, specifically for use in <i>Y. lipolytica</i>, Tsynth8 showed 3-fold greater protein expression than Tsynth30. In addition, Tsynth8 had slightly lower cryptic promoter activity and a lower tendency for transcript read-through, which would signal insufficient transcript termination. Most significantly, Tsynth8 could be ordered as a sequence from IDT; whereas Tsynth30, with it’s extended TA efficiency region, could not.</p> | |
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<div id="Oct8Yea" class="buttoncontent20"> | <div id="Oct8Yea" class="buttoncontent20"> | ||
<p>We miniprepped the yeast mediated cloning products and received high DNA concentrations in all of our samples. Afterwards, we attempted multiple PCRs with different primers to check if our genes assembled correctly to the background. We received a lot of blank gels.</p> | <p>We miniprepped the yeast mediated cloning products and received high DNA concentrations in all of our samples. Afterwards, we attempted multiple PCRs with different primers to check if our genes assembled correctly to the background. We received a lot of blank gels.</p> | ||
− | + | <p>We then decided to run the miniprep products on a gel to determine if they are larger than the expected size of pOPPY-XLR2-yX. In our first attempt, we diluted the miniprep products to about 1ng/ul and saw no bands because there was not enough DNA to be visible on the gel. We then repeated with miniprep products diluted to about 50ng/ul, and saw bands for several samples above the 10kb band on the ladder. We submitted 3 of these for Sanger sequencing through Sequetech, using primers for various points on the gene cassette.</p> | |
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<div id="Oct8Rib" class="buttoncontent20"> | <div id="Oct8Rib" class="buttoncontent20"> | ||
− | <p></p> | + | <p>All 5 transformant populations with our new Gibson Assembly product showed growth after overnight incubation. We selected 10 isolated colonies from each plate as well as 2 from a D17 control plate to create an index plate as well as perform colony PCR. After imaging, we selected colonies 2, 16, 27, 32, 43, and 51 as likely carriers of pOPPY_GFP(1)--pOPPY_GFP(5) and D17, respectively. All continued experiments up to this point have been focused on growing cultures of these colonies, isolating their plasmids, sequencing, and transforming into our Yali cell line.</p> |
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<div id="Oct8Oth" class="buttoncontent20"> | <div id="Oct8Oth" class="buttoncontent20"> | ||
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<div id="Oct15Ove" class="buttoncontent21"> | <div id="Oct15Ove" class="buttoncontent21"> | ||
− | <p> | + | <p>This is the make or break week for our iGEM team! The wiki freeze was on Wednesday on our team cut it close to the deadlines. Thanks to the tireless work of our teammates, we finished on time! </p> |
+ | <p>Our team decided to start work on a milk growth curve since our target organism will survive on dairy waste.</p> | ||
+ | <p>As of October 16th at 8:00pm, OUR TEAM DID IT!! We made progesterone!!!</p> | ||
<img src="https://static.igem.org/mediawiki/2018/0/0a/T--UCSC--ProgesteroneInPlasmid.png" style="display: block; margin-left: auto; margin-right: auto;"> | <img src="https://static.igem.org/mediawiki/2018/0/0a/T--UCSC--ProgesteroneInPlasmid.png" style="display: block; margin-left: auto; margin-right: auto;"> | ||
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<p class="section-title week" id="GAHR"><span style="font-size: 150%">Gibson Assembly and Homologous Recombination</span></p> | <p class="section-title week" id="GAHR"><span style="font-size: 150%">Gibson Assembly and Homologous Recombination</span></p> | ||
− | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/ | + | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/b/b1/T--UCSC--Gibson_Notebook.pdf"></object> |
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<p class="section-title week" id="OGA"><span style="font-size: 150%">OEPCR and Gene Amplification</span></p> | <p class="section-title week" id="OGA"><span style="font-size: 150%">OEPCR and Gene Amplification</span></p> | ||
− | < | + | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/8/82/T--UCSC--OEPCR_Notebook.pdf"></object> |
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<p class="section-title week" id="YMCCL"><span style="font-size: 150%">Yeast Mediated Cloning and Cre-Lox</span></p> | <p class="section-title week" id="YMCCL"><span style="font-size: 150%">Yeast Mediated Cloning and Cre-Lox</span></p> | ||
− | < | + | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/4/48/T--UCSC--YMC_Notebook.pdf"></object> |
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<p class="section-title week" id="BT"><span style="font-size: 150%">Biobrick and Terminator</span></p> | <p class="section-title week" id="BT"><span style="font-size: 150%">Biobrick and Terminator</span></p> | ||
− | < | + | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/6/63/T--UCSC--Biobrick_Notebook.pdf"></object> |
+ | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/6/63/T--UCSC--Terminator_Notebook.pdf"></object> | ||
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<p class="section-title week" id="R"><span style="font-size: 150%">Riboswitch</span></p> | <p class="section-title week" id="R"><span style="font-size: 150%">Riboswitch</span></p> | ||
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<p class="section-title week" id="O"><span style="font-size: 150%">Other</span></p> | <p class="section-title week" id="O"><span style="font-size: 150%">Other</span></p> | ||
− | < | + | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/5/58/T--UCSC--Dante_Notebook.pdf"></object> |
+ | <object style="width: 100%; height: 80vh" data="https://static.igem.org/mediawiki/2018/b/b2/T--UCSC--Homologous_Arms_Notebook.pdf"></object> | ||
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Latest revision as of 03:50, 18 October 2018