Team:Cooper Union/Notebook/Telomere

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<li>Designed primers for yeast genes (TLC1, RAD52, HSP104, VPS75, MAK31, SMI1).  </li>
<li>Designed primers for yeast genes (TLC1, RAD52, HSP104, VPS75, MAK31, SMI1).  </li>
<li>Checked plasmids to be ordered for knockout cassettes (pFA6a-kanMX6, pFA6a-TRP1, pAG25).</li>
<li>Checked plasmids to be ordered for knockout cassettes (pFA6a-kanMX6, pFA6a-TRP1, pAG25).</li>
-
<li>Transformed DH5alpha with 6 different BioBrick plasmids (pSB1A3, pSB1C3, pSB1K3, pSB1T3, pSB2K3), two BioBrick RBS (B0030, B0034), and a BioBrick double terminator (B0015); left all 8 to grow overnight.</li>
+
<li>Transformed DH5&alpha; with 6 different BioBrick plasmids (pSB1A3, pSB1C3, pSB1K3, pSB1T3, pSB2K3), two BioBrick RBS (B0030, B0034), and a BioBrick double terminator (B0015); left all 8 to grow overnight.</li>
</ul><br>
</ul><br>
For tomorrow:  check for cell growth on plates and further grow any colonies that form.<br>
For tomorrow:  check for cell growth on plates and further grow any colonies that form.<br>
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<li>Checked yeast plates -- all plates grew colonies.</li>
<li>Checked yeast plates -- all plates grew colonies.</li>
<li>Since EST4 knocked out in conjunction with RAD52 kills the yeast, we decided to use EST1 instead of EST4 in the gene deletion for the kill switch project.</li>
<li>Since EST4 knocked out in conjunction with RAD52 kills the yeast, we decided to use EST1 instead of EST4 in the gene deletion for the kill switch project.</li>
-
<li>Poured plates -- 3 bottles of amp (100ug/mL). We used 250 uL of 100 mg/mL stock concentration of Ampicillin.</li>
+
<li>Poured plates -- 3 bottles of amp (100ug/mL). We used 250 &mu;L of 100 mg/mL stock concentration of Ampicillin.</li>
<li>Poured two 0.8% agarose gels, both about 60 mL in each.</li>
<li>Poured two 0.8% agarose gels, both about 60 mL in each.</li>
-
<li>Helped set up Restriction Digest Reaction with De Novo group (used General Restriction Enzyme Digest protocol):  3 uL buffer, 3 uL BSA, DNA, H2O, and Xho1/Xba1 enzyme.</li>
+
<li>Helped set up Restriction Digest Reaction with <em>De novo</em> group (used General Restriction Enzyme Digest protocol):  3 &mu;L buffer, 3 &mu;L BSA, DNA, H<sub>2</sub>O, and Xho1/Xba1 enzyme.</li>
</ul>
</ul>
For tomorrow: design check primers for knockout cassettes (programmable kill switch project)<br>
For tomorrow: design check primers for knockout cassettes (programmable kill switch project)<br>
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</ul>
</ul>
<table>
<table>
-
<tr><td>bacto-yeast extract (1%) </td><td align="right">5 g</td></tr>
+
<tr><td>bacto-yeast extract (1%) </td><td class="right">5 g</td></tr>
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<tr><td>bacto-peptone (2%)</td><td align="right">10 g</td><?tr>
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<tr><td>bacto-peptone (2%)</td><td class="right">10 g</td><?tr>
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<tr><td>glucose (2%)</td><td align="right">25 mL</td></tr>
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<tr><td>glucose (2%)</td><td class="right">25 mL</td></tr>
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<tr><td>bacto-agar (2%)</td><td align="right">10 g</td></tr>
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<tr><td>bacto-agar (2%)</td><td class="right">10 g</td></tr>
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<tr><td>distilled H2O</td><td align="right">500 mL</td></tr></table><br>
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<tr><td>distilled H2O</td><td class="right">500 mL</td></tr></table><br>
For tomorrow: make more YPD plates!<br>
For tomorrow: make more YPD plates!<br>
<br>
<br>
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<br><br>Made three 250mL bottles of Synthetic Complete (SC) and Dropout Media for selectable YPD plates (1 without leucine, 1 without tryptophan, 1 without leucine+tryptophan):<br>
<br><br>Made three 250mL bottles of Synthetic Complete (SC) and Dropout Media for selectable YPD plates (1 without leucine, 1 without tryptophan, 1 without leucine+tryptophan):<br>
<table>
<table>
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<tr><td>bacto-yeast nitrogen base</td><td align="right">1.675 g</td></tr>
+
<tr><td>bacto-yeast nitrogen base</td><td class="right">1.675 g</td></tr>
-
<tr><td>glucose (2%)</td><td align="right">12.5 mL</td></tr>
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<tr><td>glucose (2%)</td><td class="right">12.5 mL</td></tr>
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<tr><td>bacto-agar (2%)</td><td align="right">5 g</td></tr>
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<tr><td>bacto-agar (2%)</td><td class="right">5 g</td></tr>
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<tr><td>dropout mix (0.2%)</td><td align="right">0.5 g</td></tr>
+
<tr><td>dropout mix (0.2%)</td><td class="right"">0.5 g</td></tr>
-
<tr><td>distilled H2O</td><td align="right">232 mL</td></tr>
+
<tr><td>distilled H<sub>2</sub>O</td><td class="right">232 mL</td></tr>
</table><br>
</table><br>
Nitrogen base was without amino acids.<br>
Nitrogen base was without amino acids.<br>
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<ul>
<ul>
<li>Researched linearizing the genome for E. coli; found that the method described in EMBO_Cui may not be ideal for the kill switch project.</li>
<li>Researched linearizing the genome for E. coli; found that the method described in EMBO_Cui may not be ideal for the kill switch project.</li>
-
<li>Helped De Novo group start their double restriction digest.</li>
+
<li>Helped <em>De novo</em> group start their double restriction digest.</li>
<li>Discussed expanding upon yeast system to make it so that the yeast strains programmed with the kill switch cannot mate with wild-type yeast strains.</li>
<li>Discussed expanding upon yeast system to make it so that the yeast strains programmed with the kill switch cannot mate with wild-type yeast strains.</li>
<li>Inoculated the cultures of pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP and left them growing overnight in LB broth with Amp antibiotic.</li>
<li>Inoculated the cultures of pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP and left them growing overnight in LB broth with Amp antibiotic.</li>
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<li>Checked the cells grown overnight; confirmed the correct plasmids had been grown (pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP)</li>
<li>Checked the cells grown overnight; confirmed the correct plasmids had been grown (pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP)</li>
<li>Prepared 1mL miniculture of equal part cells and a 60% glycerol stock for each sample to be stored in the -80C freezer. </li>
<li>Prepared 1mL miniculture of equal part cells and a 60% glycerol stock for each sample to be stored in the -80C freezer. </li>
-
<li>miniprepped the rest of the overnight cultures (2 samples of each plasmid), following the Miniprep Protocol with some exceptions. The 5mL of overnight culture was centrifuged at 3900rpm for 10 minutes for the first step of preparing the cell lysate. For the second step of eluting the DNA, 50ul of preheated TE buffer was added to the column instead of the stated 75ul. </li>
+
<li>miniprepped the rest of the overnight cultures (2 samples of each plasmid), following the Miniprep Protocol with some exceptions. The 5mL of overnight culture was centrifuged at 3900rpm for 10 minutes for the first step of preparing the cell lysate. For the second step of eluting the DNA, 50&mu;l of preheated TE buffer was added to the column instead of the stated 75&mu;l. </li>
<li>After the plasmids were isolated, the concentration of each sample was measured using the nanodrop, then stored at -20°C.</li>
<li>After the plasmids were isolated, the concentration of each sample was measured using the nanodrop, then stored at -20°C.</li>
<li>Helped Dionne nanodrop her samples.</li>
<li>Helped Dionne nanodrop her samples.</li>
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<dl>
<dl>
<dt>pFA6a-kanMX6-PGAL1-GFP</dt>
<dt>pFA6a-kanMX6-PGAL1-GFP</dt>
-
<dd>601.4 ng/ul</dd>
+
<dd>601.4 ng/&mu;l</dd>
-
<dd>725.8 ng/ul</dd>
+
<dd>725.8 ng/&mu;l</dd>
<dt>pFA6a-GFP(S65T)-TRP1</dt>
<dt>pFA6a-GFP(S65T)-TRP1</dt>
-
<dd>364.9 ng/ul</dd>
+
<dd>364.9 ng/&mu;l</dd>
-
<dd>438.2 ng/ul</dd>
+
<dd>438.2 ng/&mu;l</dd>
</dl>
</dl>
<br>
<br>
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<dd>PCR conditions: maybe use extension time of 3 minutes instead of 2; maybe lower self annealing temperature from 55 to 52.</dd>
<dd>PCR conditions: maybe use extension time of 3 minutes instead of 2; maybe lower self annealing temperature from 55 to 52.</dd>
<dd>possible contaminants in sample (unlikely because the TRP1 amplifier worked fine)</dd>
<dd>possible contaminants in sample (unlikely because the TRP1 amplifier worked fine)</dd>
-
<dd>check sequences of clonat (pAG25) and LEU2</dd></dl>
+
<dd>check sequences of clonat (pAG25) and LEU2</dd>
-
<br>
+
<dt>Sizes expected on gels:</dt>
-
<dl><dt>Sizes expected on gels:</dt>
+
<dd>EST1: 127 bp</dd>
<dd>EST1: 127 bp</dd>
<dd>ET: 1074 bp</dd>
<dd>ET: 1074 bp</dd>
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<li>Prepared for yeast transformation:  made one 250mL bottle of YPD liquid media, colony PCR'ed EST+TRP1, made yeast cultures of W303a and W303alpha.
<li>Prepared for yeast transformation:  made one 250mL bottle of YPD liquid media, colony PCR'ed EST+TRP1, made yeast cultures of W303a and W303alpha.
<br>
<br>
-
YPD liquid media:<br>
+
YPD liquid media:
<table>
<table>
-
<tr><td>yeast extract (1%)</td><td align="right">2.5g</td></tr>
+
<tr><td>yeast extract (1%)</td><td class="right">2.5g</td></tr>
-
<tr><td>peptone (2%)</td><td align="right">5g</td></tr>
+
<tr><td>peptone (2%)</td><td class="right">5g</td></tr>
-
<tr><td>glucose (40%)</td><td align="right">12.5 mL</td></tr>
+
<tr><td>glucose (40%)</td><td class="right">12.5 mL</td></tr>
-
<tr><td>distilled H2O</td><td align="right">237.5 mL</td></tr></table></li></ul>
+
<tr><td>distilled H2O</td><td class="right"">237.5 mL</td></tr></table></li>
-
<br>
+
<li><dl><dt>Colony PCR:</dt>
-
<dl><dt>colony PCR:</dt>
+
<dd>took bacteria from pFA6a-TRP1 plasmid bottle and swirled in 200 uL H2O</dd>
<dd>took bacteria from pFA6a-TRP1 plasmid bottle and swirled in 200 uL H2O</dd>
<dd>added 20 uL TRP1, 2.5 uL of EST1 forward and reverse primers into 4 PCR tubes</dd>
<dd>added 20 uL TRP1, 2.5 uL of EST1 forward and reverse primers into 4 PCR tubes</dd>
-
<dd>used PCR program 333</dd></dl>
+
<dd>used PCR program 333</dd></dl></li>
-
<br>
+
<li><dl><dt>yeast culture:</dt>
-
<dl><dt>yeast culture:</dt>
+
<dd>took W303a and W303alpha colonies and added to ~20 mL YPD (2%)</dd>
<dd>took W303a and W303alpha colonies and added to ~20 mL YPD (2%)</dd>
<dd>put samples in shaker (37 degrees, 250 rpm)</dd>
<dd>put samples in shaker (37 degrees, 250 rpm)</dd>
<dd>For tomorrow:  check PCR, do yeast transformation</dd>
<dd>For tomorrow:  check PCR, do yeast transformation</dd>
-
</dl><br>
+
</dl></li></ul>
   
   
<h3>
<h3>
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<dd>W303a: 1,355,000 cells/mL</dd>
<dd>W303a: 1,355,000 cells/mL</dd>
<dd>W303alpha: 2,020,500 cells/mL</dd></dl></li>
<dd>W303alpha: 2,020,500 cells/mL</dd></dl></li>
-
<li>Calculated ratios of YPD and culture to make a cell density of 5x10^6 cells/mL.</li>
+
<li>Calculated ratios of YPD and culture to make a cell density of 5x10<sup>6</sup> cells/mL.</li>
<li>Inoculated cultures with YPD and put in shaker at 3pm.<br>
<li>Inoculated cultures with YPD and put in shaker at 3pm.<br>
<dl><dd>W303a: 10.25mL culture + 14.7mL YPD = 25 mL total</dd>
<dl><dd>W303a: 10.25mL culture + 14.7mL YPD = 25 mL total</dd>
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<br><em>Note: total should have been 25mL, but we thought we did not have enough culture.
<br><em>Note: total should have been 25mL, but we thought we did not have enough culture.
But actually, we did the math wrong and had to redo the inoculation, finally putting the cultures into the shaker at 5pm, to be checked at 7:30.</em></dd>
But actually, we did the math wrong and had to redo the inoculation, finally putting the cultures into the shaker at 5pm, to be checked at 7:30.</em></dd>
-
<dd>W303a: 6.5x10^7 cells/mL  ---->  2.5mL culture + 25mL YPD = 27.5 mL total</dd>
+
<dd>W303a: 6.5x10<sup>7</sup> cells/mL  ---->  2.5mL culture + 25mL YPD = 27.5 mL total</dd>
-
<dd>W303alpha: 4.5x10^7 cells/mL  ---->  2.5mL culture + 22.5mL YPD = 25mL total</dd></dl></li>
+
<dd>W303alpha: 4.5x10<sup>7</sup> cells/mL  ---->  2.5mL culture + 22.5mL YPD = 25mL total</dd></dl></li>
<li>Yeast cells were ready at 8:45pm, with cell density ~2x10^7</li>
<li>Yeast cells were ready at 8:45pm, with cell density ~2x10^7</li>
<li>Followed Small-scale LiAc Yeast Transformation Procedure up to step 21, where Jae and I plated the yeast (which had EST1+TRP1 added to them) on TRP- plates, along with two negative controls (W303a and W303alpha without EST1+TRP1).  The plates were left in the 30 degree incubator to sit for 2-3 days.</li>
<li>Followed Small-scale LiAc Yeast Transformation Procedure up to step 21, where Jae and I plated the yeast (which had EST1+TRP1 added to them) on TRP- plates, along with two negative controls (W303a and W303alpha without EST1+TRP1).  The plates were left in the 30 degree incubator to sit for 2-3 days.</li>
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<li>Ran clonat double digest:
<li>Ran clonat double digest:
<table>
<table>
-
<tr><td>Cutsmart buffer</td><td align="right">2 uL</td></tr>
+
<tr><td>Cutsmart buffer</td><td class="right">2 uL</td></tr>
-
<tr><td>10x BSA</td><td align="right">2 uL</td></tr>
+
<tr><td>10x BSA</td><td class="right">2 uL</td></tr>
-
<tr><td>pAG25</td><td align="right">1 uL</td></tr>
+
<tr><td>pAG25</td><td class="right">1 uL</td></tr>
-
<tr><td>ddH2O</td><td align="right">13 uL</td></tr>
+
<tr><td>ddH2O</td><td class="right">13 uL</td></tr>
-
<tr><td>SacI</td><td align="right">1 uL</td></tr>
+
<tr><td>SacI</td><td class="right">1 uL</td></tr>
-
<tr><td>BamHI-HF</td><td align="right">1 uL</td></tr>
+
<tr><td>BamHI-HF</td><td class="right">1 uL</td></tr>
<tr><td colspan="2">Total Volume: 20 uL</td></tr></table></li>
<tr><td colspan="2">Total Volume: 20 uL</td></tr></table></li>
<li>Designed BioBrick primer for EST2 (for yeast strains Professor Medvedik brought back from Boston)</li>
<li>Designed BioBrick primer for EST2 (for yeast strains Professor Medvedik brought back from Boston)</li>
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<li>Instead of using PCR tubes with beads, we used a standard PCR reaction:
<li>Instead of using PCR tubes with beads, we used a standard PCR reaction:
<table>  
<table>  
-
<tr><td>Master Mix</td><td align="right">1x</td><td align="right">9x</td></tr>
+
<tr><td>Master Mix</td><td class="right">1x</td><td class="right">9x</td></tr>
-
<tr><td>10x ThermoPol Buffer</td><td>2.5 uL</td><td>22.5 uL</td></tr>
+
<tr><td>10x ThermoPol Buffer</td><td class="right">2.5 uL</td><td class="right">22.5 uL</td></tr>
-
<tr><td>Primers (Forward & Reverse)</td><td>5 uL</td><td>45 uL</td></tr>
+
<tr><td>Primers (Forward & Reverse)</td><td class="right">5 uL</td><td class="right">45 uL</td></tr>
-
<tr><td>10mM dNTP</td><td>0.25 uL</td><td>2.25 uL</td></tr>
+
<tr><td>10mM dNTP</td><td class="right">0.25 uL</td><td class="right">2.25 uL</td></tr>
-
<tr><td>Template</td><td>5 uL</td><td>&nbsp;</td></tr>  
+
<tr><td>Template</td><td class="right">5 uL</td><td></td></tr>  
-
<tr><td>Taq DNA Polymerase</td><td>0.5 uL</td><td>4.5 uL</td></tr>
+
<tr><td>Taq DNA Polymerase</td><td class="right">0.5 uL</td><td class="right">4.5 uL</td></tr>
-
<tr><td>ddH2O</td><td>11.75 uL</td><td>105.75</td></tr>
+
<tr><td>ddH2O</td><td class="right">11.75 uL</td><td class="right">105.75</td></tr>
-
<tr><td>Total</td><td>25 uL</td><td>180</td></tr></table></li>
+
<tr><td>Total</td><td class="right">25 uL</td><td class="right">180</td></tr></table></li>
<li>Poured YPD plates (two 250mL bottles)</li>
<li>Poured YPD plates (two 250mL bottles)</li>
<li>Made four 1% agarose gels</li>
<li>Made four 1% agarose gels</li>
Line 707: Line 709:
<dl><dd>Gel 1 Wells: 1. blank ; 2. 250bp ladder ; 3. MTB1(1) ; 4. MTB1(2) ; 5. MTB2(1) ; 6. MTB2(2). </dd>
<dl><dd>Gel 1 Wells: 1. blank ; 2. 250bp ladder ; 3. MTB1(1) ; 4. MTB1(2) ; 5. MTB2(1) ; 6. MTB2(2). </dd>
<dd> Gel 2 Wells: 1. Blank ; 2. 250bp ladder ; 3. MT71(1) ; 4. MT71(2) ; 5. VT62(1) ; 6. VT62(2)</dd>
<dd> Gel 2 Wells: 1. Blank ; 2. 250bp ladder ; 3. MT71(1) ; 4. MT71(2) ; 5. VT62(1) ; 6. VT62(2)</dd>
-
<dt>Gel Results: we used too much ladder (wrong concentration). </dt>
+
<dt>Gel Results</dt>
 +
<dd> we used too much ladder (wrong concentration). </dd>
<dd>There were very faint bands -- maybe redo PCR with raised temperature. </dd>
<dd>There were very faint bands -- maybe redo PCR with raised temperature. </dd>
<dd> There were bright bands outside the ladder.</dd></dl></li>
<dd> There were bright bands outside the ladder.</dd></dl></li>
Line 714: Line 717:
For tomorrow: count yeast cells<br>
For tomorrow: count yeast cells<br>
-
  <pre>
+
   
-
8/1/14:
+
<h3>8/1/14</h3>
-
 
+
<ul>
-
- Checked yeast cells in roller
+
<li>Checked yeast cells in roller</li>
-
- counted cells with hemacytometer
+
<li>counted cells with hemacytometer
-
 
+
<dl><dd>W303alpha: 1.31x10^8 cells/mL</dd>
-
W303alpha: 1.31x10^8 cells/mL
+
<dd>W303A: 1.4x10^8 cells/mL  -- 5uL for dilution</dd>
-
W303A: 1.4x10^8 cells/mL  -- 5uL for dilution
+
<dd>1296: 1.015x10^8 cells/mL  --  5uL for dilution</dd>
-
1296: 1.015x10^8 cells/mL  --  5uL for dilution
+
<dd>1294: 2.805x10^6 cells/mL  --  214uL for dilution</dd>
-
1294: 2.805x10^6 cells/mL  --  214uL for dilution
+
<dd>1297: 3.695x10^6 cells/mL  --  Some of these yeast cells were dark and dying: this strain is in the middle of senescencing </dd></dl></li>
-
1297: 3.695x10^6 cells/mL  --  Some of these yeast cells were dark and dying: this strain is in the middle of senescencing  
+
<li>Diluted W303A, 1296, 1294 in triplicate in 6mL new YPD media to cell density of 10^5</li></ul>
-
- Diluted W303A, 1296, 1294 in triplicate in 6mL new YPD media to cell density of 10^5
+
<br>
-
 
+
For tomorrow: count cells and re-dilute<br>
-
For tomorrow: count cells and re-dilute
+
   
   
-
2014/8/2
+
<h3>8/2/2014</h3>
-
 
+
<br>
Cell count:
Cell count:
 +
<dl>
 +
<dt>1296</dt>
 +
<dd> 1: 6.4x10^7</dd>
 +
<dd> 2: 1.63x10^8</dd>
 +
<dd>3: 1.28x10^8 </dd>
 +
<dd> Ave: 1.18x10^8+0.15-0.18</dd>
-
1296: 1: 6.4x10^7; 2: 1.63x10^8; 3: 1.28x10^8 --> Ave: 1.18x10^8+0.15-0.18
+
<dt>W303A</dt>
 +
<dd> 1: 3.08x10^7</dd>
 +
<dd> 2: 3.72x10^7 </dd>
 +
<dd> 3: 2.99x10^7</dd>
 +
<dd>Ave: 3.26x10^7+0.15-0.09</dd>
-
W303A: 1: 3.08x10^7; 2: 3.72x10^7 ; 3: 2.99x10^7-->Ave: 3.26x10^7+0.15-0.09
+
<dt>1294</dt>
 +
<dd> 1: 1.72x10^8 </dd>
 +
<dd> 2: 1.63x10^8 </dd>
 +
<dd> 3:1.83x10^8</dd>
 +
<dd>Ave: 1.73x10^8+0.03-0.03</dd>
-
1294: 1: 1.72x10^8 ; 2: 1.63x10^8 ; 3:1.83x10^8-->Ave: 1.73x10^8+0.03-0.03
+
<dt>Recultured with 3-1-1: closest to average</dt>
-
 
+
<dd>1296: 3.906 ul</dd>
-
Recultured with 3-1-1: closest to average
+
<dd> W303A: 16.26 ul</dd>
-
 
+
<dd> 1294: 29.07 ul</dd></dl>
-
1296: 3.906 ul, W303A: 16.26 ul, 1294: 29.07 ul
+
   
   
-
2014/8/3
+
<h3>8/3/2014</h3>
-
 
+
<br>
Cell count:
Cell count:
 +
<dl><dt>1296</dt>
 +
<dd> 1: 1.39x10^8</dd>
 +
<dd> 2: 1.39x10^8</dd>
 +
<dd>3: 1.07x10^8 </dd>
 +
<dd> Ave: 1.28x10^8+0.04-0.07</dd>
-
1296: 1: 1.39x10^8; 2: 1.39x10^8; 3: 1.07x10^8 --> Ave: 1.28x10^8+0.04-0.07
+
<dt>W303A</dt>
 +
<dd> 1: 1.05x10^8 </dd>
 +
<dd> 2: 9.2x10^7</dd>
 +
<dd> 3: 1.25x10^8</dd>
 +
<dd>Ave: 1.07x10^8+0.06-0.05</dd>
-
W303A: 1: 1.05x10^8; 2: 9.2x10^7 ; 3: 1.25x10^8-->Ave: 1.07x10^8+0.06-0.05
+
<dt>1294</dt>
 +
<dd> 1: 1.41x10^8 </dd>
 +
<dd> 2: 1.52x10^8 </dd>
 +
<dd> 3:1.72x10^8 </dd>
 +
<dd>Ave: 1.55x10^8+0.06-0.05 </dd>
-
1294: 1: 1.41x10^8 ; 2: 1.52x10^8 ; 3:1.72x10^8-->Ave: 1.55x10^8+0.06-0.05
+
<dt>Recultured with 1-2-1: closest to average</dt>
-
 
+
-
Recultured with 1-2-1: closest to average
+
-
 
+
-
1296: 3.6 ul, W303A: 3.2 ul, 1294: 4.8 ul
+
 +
<dd>1296: 3.6 ul</dd>
 +
<dd> W303A: 3.2 ul</dd>
 +
<dd> 1294: 4.8 ul</dd></dl>
   
   
-
8/4/14:
+
<h3>8/4/14</h3>
 +
<ul>
 +
<li>Made one 250mL bottle of liquid YPD media (2%) because of contamination in other bottle</li>
 +
<li>Made sporulation media<br>
 +
<table>
 +
<tr><td>potassium acetate (1%)</td><td class="right">2.5g</td></tr>
 +
<tr><td>bacto-yeast extract (0.1%)</td><td  class="right">0.25g</td></tr>
 +
<tr><td>glucose (0.05%)</td><td class="right">313uL</td></tr>
 +
<tr><td>H2O</td><td class="right">250mL</td></tr></table></li>
 +
<li>Yeast roller stopped overnight, so cell density was comparatively lower than expected for today.<br>
 +
<dl><dt>W303A</dt>
 +
<dd>(1) 4.75x10^7 cells/mL  -- 10.53uL for dilution</dd>
 +
<dd>(2) 4.05x10^7 cells/mL  -- 12.35uL for dilution</dd>
 +
<dd>(3) 4.35x10^7 cells/mL  -- 11.5uL for dilution</dd>
 +
<dt>1296</dt>
 +
<dd>(1) 4.24x10^6 cells/mL  -- 118uL for dilution</dd>
 +
<dd>(2) 4.955x10^6 cells/mL  -- 101uL for dilution</dd>
 +
<dd>(3) 4.15x10^6 cells/mL  -- 125uL for dilution</dd>
 +
<dt>1294</dt>
 +
<dd>(1) 2.715x10^6 cells/mL  -- 184uL for dilution</dd>
 +
<dd>(2) 2.315x10^6 cells/mL  -- 216uL for dilution</dd>
 +
<dd>(3) 3.02x10^6 cells/mL  -- 165.5uL for dilution</dd></dl></li>
 +
<li>The yeast was not rediluted and put back into the roller until 5:40pm.</li>
 +
<li>Made plate readings of W303A(1) for OD600
 +
<table>
 +
<tr><td>OD600</td><td>cell density (cells/mL)</td></tr>
 +
<tr><td class="right">1.556</td><td class="right">2x10^8</td></tr>
 +
<tr><td class="right">1.037</td><td class="right">1x10^8</td></tr>
 +
<tr><td class="right">0.795</td><td class="right">5.17x10^7</td></tr>
 +
<tr><td class="right">0.618</td><td class="right">4.78x10^7</td></tr>
 +
<tr><td class="right">0.417</td><td class="right">2.51x10^7</td></tr>
 +
<tr><td class="right">0.236</td><td class="right">1.535x10^7</td></tr>
 +
<tr><td class="right">0.134</td><td class="right">8.35x10^5</td></tr>
 +
<tr><td class="right">0.125</td><td class="right">1.05x10^5</td></tr></table></li>
 +
<li>Colony PCR'ed EST2, Mak31, Vps75 for biobricking</li></ul><br>
-
- Made one 250mL bottle of liquid YPD media (2%) because of contamination in other bottle
+
For tomorrow:  start new yeast experiment(?), continue yeast experiment (5:40 check), autoclave more glass culture tubes, biobrick parts<br>
-
- Made sporulation media:
+
-
potassium acetate (1%)       2.5g
+
<h3>8/6/14</h3>
-
bacto-yeast extract (0.1%)   0.25g
+
<ul>
-
glucose (0.05%)                 313uL
+
<li>Gave presentation on project to summer STEM participants.</li>
-
H2O                                  250mL
+
<li>Autoclaved culture tubes</li>
-
- Yeast roller stopped overnight, so cell density was comparatively lower than expected for today.
+
<li>Checked roller at ~4:15
 +
<dl>
 +
<dt>W303A</dt>
 +
<dd>(1) 6.20x10^7 cells/mL  -- 8.06uL for dilution</dd>
 +
<dd>(2) 5.70x10^7 cells/mL  -- 8.77uL for dilution</dd>
 +
<dd>(3) 7.03x10^7 cells/mL  -- 7.1uL for dilution</dd>
 +
<dt>1296</dt>
 +
<dd>(1) 1.47x10^7 cells/mL  -- 34.0uL for dilution</dd>
 +
<dd>(2) 1.99x10^7 cells/mL  -- 25.1uL for dilution</dd>
 +
<dd>(3) 1.74x10^7 cells/mL  -- 28.7uL for dilution</dd>
 +
<dt>1294</dt>
 +
<dd>(1) 2.33x10^7 cells/mL  -- 21.5uL for dilution</dd>
 +
<dd>(2) 2.41x10^7 cells/mL  -- 20.7uL for dilution</dd>
 +
<dd>(3) 2.33x10^7 cells/mL  -- 21.4uL for dilution</dd></dl></li>
 +
<li>Put rollers back in for one more day(to complete 7 days)</li>
 +
<li>Put 1305 diploid into sporulation media and restruck two plates of 1305.</li></ul>
 +
<br>
 +
Tomorrow: Check rollers at 4:30. PCR biobrick parts.  prepare psb1c3 vector for biobricking.<br>
-
W303A:
+
<h3>8/7/14</h3>
-
(1) 4.75x10^7 cells/mL  -- 10.53uL for dilution
+
-
(2) 4.05x10^7 cells/mL  -- 12.35uL for dilution
+
-
(3) 4.35x10^7 cells/mL  -- 11.5uL for dilution
+
-
1296:
+
-
(1) 4.24x10^6 cells/mL  -- 118uL for dilution
+
-
(2) 4.955x10^6 cells/mL  -- 101uL for dilution
+
-
(3) 4.15x10^6 cells/mL  -- 125uL for dilution
+
-
1294:
+
-
(1) 2.715x10^6 cells/mL  -- 184uL for dilution
+
-
(2) 2.315x10^6 cells/mL  -- 216uL for dilution
+
-
(3) 3.02x10^6 cells/mL  -- 165.5uL for dilution
+
-
- The yeast was not rediluted and put back into the roller until 5:40pm.
+
-
- Made plate readings of W303A(1) for OD600
+
-
OD600 cell density (cells/mL)
+
<ul>
-
1.556 2x10^8
+
<li>PCR of Biobrick Parts: VPS75::TRP1 (colony 6), MAK31:: TRP1 (colony B), EST1 (13000)<br>
-
1.037 1x10^8
+
1-2kb program with extension time 60sec and annealing temperature 56 C<br>
-
0.795 5.17x10^7
+
Want 500 ng of the vector: psB1C3: 71.1 ng/ul=>7ul<br>
-
0.618 4.78x10^7
+
<dl><dt>Biobrick Digest Procedure</dt>
-
0.417 2.51x10^7
+
<dd>ECORI Enzyme: 1ul</dd>
-
0.236 1.535x10^7
+
<dd>Pst1 Enzyme: 1ul, should be added last.</dd>
-
0.134 8.35x10^5
+
<dd>1 ul of enzyme: 10 ul total-> make 20 total but professor suggested 15 ul total</dd>
-
0.125 1.05x10^5
+
<dd>1.5ul BSA, 1.5 ul BuffH, 3ul water =>15 ul total</dd>
-
- Colony PCR'ed EST2, Mak31, Vps75 for biobricking
+
<dd>37 C incubation for 1 hour, 70C innactivation period 15 min. </dd></dl></li>
-
 
+
<li>Purify using PCR product procedure</li>
-
For tomorrow:  start new yeast experiment(?), continue yeast experiment (5:40 check), autoclave more glass culture tubes, biobrick parts
+
<li>Nanodrop and run on gel (expected size of vector: 2040 bp)
-
 
+
<dl><dd>Final concentration of psB1C3: 9.0 ng/uL</dd></dl></li>
-
8/6/14
+
<li>Gel Run of PCR'd biobrick parts</li>
-
 
+
<dl><dd>Wells: 1 blank ; 2 Versa Ladder ; 3 EST2 ; 4 MAK31 ; 5 VPS75</dd>
-
-Gave presentation on project to summer STEM participants.
+
<dt>Results</dt>
-
 
+
<dd>faint band on 1K for VPS75. Redyed but did not make clearer</dd></dl></li>
-
-Autoclaved culture tubes
+
<li>Put in two samples of 1305 in sporulation media at ~2:30 pm</li>
-
 
+
<li>Gel Run of purified psB1c3 vector
-
Checked roller at ~4:15
+
<dl><dd>Wells: 1 blank ; 2 Versa Ladder ; 3 psB1c3 purified</dd>
-
 
+
<dt>Results</dt>
-
W303A:
+
<dd>OD600 of yeast cells</dd>
-
(1) 6.20x10^7 cells/mL  -- 8.06uL for dilution
+
<dd>W303A: 1: 1.161;  2:1.143; 3:1.367</dd>
-
(2) 5.70x10^7 cells/mL  -- 8.77uL for dilution
+
<dd>1294: 1:1.027; 2.1.080; 3:1.079</dd>
-
(3) 7.03x10^7 cells/mL  -- 7.1uL for dilution
+
<dd>1296: 1: 0.987; 2.1.224; 3:1.091</dd></dl>
-
1296:
+
</li>
-
(1) 1.47x10^7 cells/mL  -- 34.0uL for dilution
+
</ul>
-
(2) 1.99x10^7 cells/mL  -- 25.1uL for dilution
+
-
(3) 1.74x10^7 cells/mL  -- 28.7uL for dilution
+
-
1294:
+
-
(1) 2.33x10^7 cells/mL  -- 21.5uL for dilution
+
-
(2) 2.41x10^7 cells/mL  -- 20.7uL for dilution
+
-
(3) 2.33x10^7 cells/mL  -- 21.4uL for dilution
+
-
Put rollers back in for one more day(to complete 7 days)
+
-
 
+
-
Put 1305 diploid into sporulation media and restruck two plates of 1305.
+
-
 
+
-
Tomorrow: Check rollers at 4:30. PCR biobrick parts.  prepare psb1c3 vector for biobricking.
+
-
 
+
-
+
-
 
+
-
2014/8/7
+
-
 
+
-
-PCR of Biobrick Parts: VPS75::TRP1 (colony 6), MAK31:: TRP1 (colony B), EST1 (1300)
+
-
 
+
-
1-2kb program with extension time 60sec and annealing temperature 56 C
+
-
 
+
-
Biobrick Digest Procedure
+
-
 
+
-
Want 500 ng of the vector: psB1C3: 71.1 ng/ul=>7ul
+
-
ECORI Enzyme: 1ul
+
-
Pst1 Enzyme: 1ul, should be added last.
+
-
1 ul of enzyme: 10 ul total-> make 20 total but professor suggested 15 ul total
+
-
1.5ul BSA, 1.5 ul BuffH, 3ul water =>15 ul total
+
-
37 C incubation for 1 hour, 70C innactivation period 15 min.  
+
-
Purify using PCR product procedure
+
-
Nanodrop and run on gel (expected size of vector: 2040 bp)
+
-
Final concentration of psB1C3: 9.0 ng/uL
+
-
 
+
-
- Gel Run of PCR'd biobrick parts
+
-
 
+
-
Wells: 1 blank ; 2 Versa Ladder ; 3 EST2 ; 4 MAK31 ; 5 VPS75
+
-
 
+
-
Results: faint band on 1K for VPS75. Redyed but did not make clearer
+
-
 
+
-
- Put in two samples of 1305 in sporulation media at ~2:30 pm
+
-
 
+
-
- Gel Run of purified psB1c3 vector
+
-
 
+
-
Wells: 1 blank ; 2 Versa Ladder ; 3 psB1c3 purified
+
-
 
+
-
Results:
+
-
 
+
-
OD600 of yeast cells:
+
-
 
+
-
W303A: 1: 1.161;  2:1.143; 3:1.367
+
-
 
+
-
1294: 1:1.027; 2.1.080; 3:1.079
+
-
 
+
-
1296: 1: 0.987; 2.1.224; 3:1.091
+
For tomorrow: purify VPS75 biobrick part; double digest VPS75; insert VPS75 part into psB1c3 vector; check cells in sporulation media ; rerun PCR of EST2 and MAK31 with different settings?
For tomorrow: purify VPS75 biobrick part; double digest VPS75; insert VPS75 part into psB1c3 vector; check cells in sporulation media ; rerun PCR of EST2 and MAK31 with different settings?
   
   
 +
<h3>8/8/14</h3>
-
2014/8/8
+
<ul>
-
 
+
<li><dl><dt>Redo of Colony PC EST2 and MAK31</dt>
-
Redo of Colony PC: EST2 and MAK31=> Used Q5 Master Mix with buffers
+
<dd>Used Q5 Master Mix with buffers</dd>
-
 
+
<dd>12.5ul of 1X Mix</dd>
-
12.5ul of 1X Mix
+
<dd>1.25ul of FWD and RVS Primers</dd>
-
 
+
<dd>10 ul of template</dd>
-
1.25ul of FWD and RVS Primers
+
<dd>25ul reaction total</dd></dl></li>
-
 
+
<li><dl><dt>PCR Settings</dt>
-
10 ul of template ===> 25ul reaction total
+
<dd>Denaturation: 98C, 30sec</dd>
-
 
+
<dd>30Cycles: 98C, 30sec</dd>
-
Settings: MasterMix PCR:
+
<dd>55C, 30sec</dd>
-
 
+
<dd>72C, 30sec</dd>
-
Denaturation: 98C, 30sec
+
<dd>Extension Time: 72C, 2min</dd>
-
 
+
<dd>Hold at 4C</dd></dl></li>
-
30Cycles: 98C, 30sec-> 55C, 30sec->72C, 30sec
+
<li>Gel Run of EST2 and MAK31
-
 
+
<dl><dd>Well1: blank, 2: Versa Ladder, 3: MAK31, 4: EST2</dd>
-
Extension Time: 72C, 2min
+
<dt>Results</dt>
-
 
+
<dd>no bands so PCR did not work</dd></dl></li>
-
Hold at 4C
+
<li>Nanodrop malfunction<br>
-
 
+
concentration of purified VPS75 unchecked:<br>
-
Gel Run of EST2 and MAK31
+
double digest VPS75 and  insertion of  VPS75 part into psB1c3 vector not operated</li>
-
 
+
<li>Made graph of yeast growth curve (with changed OD600 equation)</li></ul>
-
Well1: blank, 2: Versa Ladder, 3: MAK31, 4: EST2
+
<br>
-
 
+
-
Results: no bands so PCR did not work
+
-
 
+
-
Nanodrop malfunction: concentration of purified VPS75 unchecked: double digest VPS75 and  insertion of  VPS75 part into psB1c3 vector not operated
+
-
 
+
-
-Made graph of yeast growth curve (with changed OD600 equation)
+
-
 
+
For monday: New yeast cycle, check Spo, double digest VPS75; insert VPS75 part into psB1c3 vector;
For monday: New yeast cycle, check Spo, double digest VPS75; insert VPS75 part into psB1c3 vector;
 +
<br>
-
+
<h3>8/11/14</h3>
-
 
+
-
2014/8/11
+
-
 
+
-
Sporulation media culture: 8/6 culture contaminated, 8/7 cultured for 4 days showed clustering
+
-
 
+
-
KANMX selection: 2.25 ml sterile PBS+G418 disulfate salt: 1000X, filter sterilized and refrigerated
+
-
 
+
-
1305 selection plates: RAD52:LEU2//EST2:KANMX//SGS1:HIS3
+
-
 
+
-
Haploid seletion
+
-
 
+
-
-zymolyase breaks down membrane==>cultured on YPD plates. then replicated onto LEU-, KANMX, HIS3-
+
-
 
+
-
-double selection on LEU, KANMX plates
+
-
 
+
-
200ul zymolyase storage buffer to zymolyase 1000U
+
-
 
+
-
VPS75 purification check: 12.2 ng/ul
+
-
 
+
-
-Made 3 plates each of W303A/alpha with 35 cells/mL W303A/alpha 350 cells/mL
+
-
 
+
-
Tomorrow: double digest VPS75 insert, biobrick transformation, replicate spo plates, screen EST1+VPS75/MAK31 colonies for double knockouts.
+
 +
<ul>
 +
<li><dl><dt>Sporulation media culture</dt>
 +
<dd>8/6 culture contaminated</dd>
 +
<dd>8/7 cultured for 4 days showed clustering</dd>
 +
<dt>1000x KANMX selection</dt>
 +
<dd>2.25 ml sterile PBS</dd>
 +
<dd>G418 disulfate salt</dd>
 +
<dd> filter sterilized and refrigerated</dd></li>
 +
<li>1305 selection plates: RAD52:LEU2//EST2:KANMX//SGS1:HIS3</li>
 +
<li>Haploid seletion</li>
 +
<li>zymolyase breaks down membrane==>cultured on YPD plates. then replicated onto LEU-, KANMX, HIS3- </li>
 +
<li>double selection on LEU, KANMX plates</li>
 +
<li>200ul zymolyase storage buffer to zymolyase 1000U</li>
 +
<li>VPS75 purification check: 12.2 ng/ul</li>
 +
<li>Made 3 plates each of W303A/alpha with 35 cells/mL W303A/alpha 350 cells/mL</li>
 +
</ul>
 +
<br>
 +
Tomorrow: double digest VPS75 insert, biobrick transformation, replicate spo plates, screen EST1+VPS75/MAK31 colonies for double knockouts.<br>
 +
<br>
For future: generate growth curve for double selected spo plates (EST2+RAD52) and EST1+VPS/MAK  
For future: generate growth curve for double selected spo plates (EST2+RAD52) and EST1+VPS/MAK  
 +
<br>
-
8/12/14
 
-
- double digested VPS75 insert
+
<h3>8/12/14</h3>
-
 
+
-
45 uL VPS75 (12.2 ng.uL)
+
-
1.5 uL each ECOR1 and PST1
+
-
6 uL buffer H
+
-
6 uL BSA
+
-
60 uL total
+
-
-Incubated for 1 hour (no inactivation)
+
-
 
+
-
-Purified VPS75 insert (Final concentration: 1.1 ng/uL) Need to redo PCR. Next time PCR, dilute to 50 uL, then directly double digest
+
-
 
+
-
-Inoculated 1296, W303alpha, VPS75::TRP1 colony 6, MAK31::TRP1 colony B for new curves. Put in roller at 2:45 pm
+
-
 
+
-
- colony PCR screened for double knockouts (EST1 and VPS/MAK)
+
-
 
+
-
A =  VPS75::TRP1 ; EST1::LEU2 "Colony 6" Plate 2 (strain 1880)
+
-
B = MAK31::TRP1 ; EST1::LEU2 "Plate B" Plate 2 (strain 1880)
+
-
C = MAK31::TRP1 ; EST1:: LEU2 "Plate B" Plate 1 (strain 1880)
+
-
D = MAK31::TRP1 ; EST1:: LEU2 "Colony 7" Plate 1 (strain 1880)
+
-
E1-E5 = MAK31::TRP1 ; EST1::LEU2 "Colony 3" Plate 2 (strain 1880)
+
-
PCR conditions:
+
-
 
+
-
Initial: 95 C, 300 sec
+
-
40 cycles
+
-
Denature: 95 C, 30 sec
+
-
Anneal: 56 C, 30 sec
+
-
Extension: 72 C, 60 sec
+
-
Final: 72 C, 420 sec
+
-
Hold: 4 C
+
-
-Made 4 1% gels
+
 +
<ul>
 +
<li>double digested VPS75 insert
 +
<dl><dd>45 uL VPS75 (12.2 ng.uL)</dd>
 +
<dd>1.5 uL each ECOR1 and PST1</dd>
 +
<dd>6 uL buffer H</dd>
 +
<dd>6 uL 10x BSA</dd>
 +
<dd>60 uL total</dd>
 +
<dd>Incubated for 1 hour (no heat inactivation)</dd></dl>
 +
</li>
 +
<li>Purified VPS75 insert (Final concentration: 1.1 ng/uL)<br> Need to redo PCR. Next time PCR, dilute to 50 uL, then directly double digest</li>
 +
<li>Inoculated 1296, W303alpha, VPS75::TRP1 colony 6, MAK31::TRP1 colony B for new curves. Put in roller at 2:45 pm</li>
 +
<li>colony PCR screened for double knockouts (EST1 and VPS/MAK)
 +
<dl><dd>A =  VPS75::TRP1 ; EST1::LEU2 "Colony 6" Plate 2 (strain 1880)</dd>
 +
<dd>B = MAK31::TRP1 ; EST1::LEU2 "Plate B" Plate 2 (strain 1880)</dd>
 +
<dd>C = MAK31::TRP1 ; EST1:: LEU2 "Plate B" Plate 1 (strain 1880)</dd>
 +
<dd>D = MAK31::TRP1 ; EST1:: LEU2 "Colony 7" Plate 1 (strain 1880)</dd>
 +
<dd>E1-E5 = MAK31::TRP1 ; EST1::LEU2 "Colony 3" Plate 2 (strain 1880)</dd></dl>
 +
</li>
 +
<li>PCR conditions:
 +
<dl><dd>Initial: 95 C, 300 sec </dd>
 +
<dd>40 cycles</dd>
 +
<dd>Denature: 95 C, 30 sec</dd>
 +
<dd>Anneal: 56 C, 30 sec</dd>
 +
<dd>Extension: 72 C, 60 sec</dd>
 +
<dd>Final: 72 C, 420 sec</dd>
 +
<dd>Hold: 4 C</dd></dl>
 +
</li>
 +
<li>Made 4 1% gels<br>
Ran gels of colony PCR check for EST1  
Ran gels of colony PCR check for EST1  
-
 
+
<dl><dd>Gel 1 Wells: 1 Versa Ladder ; 2 A3 ; 3 A4 ; 4 B3 ; 5 B4 ; 6 C3 ; 7 C4</dd>
-
Gel 1 Wells: 1 Versa Ladder ; 2 A3 ; 3 A4 ; 4 B3 ; 5 B4 ; 6 C3 ; 7 C4
+
<dd>Gel 2 Wells: 1 Versa Ladder ; 2 D3 ; 3 D4 ; 4 E1 ; 5 E2 ; 6 E3 ; 7 E4 ; 8 E5</dd>
-
 
+
<dt>Gel Results</dt></dl>
-
Gel 2 Wells: 1 Versa Ladder ; 2 D3 ; 3 D4 ; 4 E1 ; 5 E2 ; 6 E3 ; 7 E4 ; 8 E5
+
</li>
-
 
+
<li>Checked sporulated yeast cells, dissolved membrane with 10 uL zymolyase (30 minute wait)</li>
-
Gel Results:
+
<li>inoculated two tubes of 1305 in Spo media</li>
-
 
+
</ul>
-
- Checked sporulated yeast cells, dissolved membrane with 10 uL zymolyase (30 minute wait)
+
<br>
-
- inoculated two tubes of 1305 in Spo media
+
-
 
+
For tomorrow:  Make YPD plates, redo BioBrick of VPS75 (do not purify PCR product), look at primers of EST1 and MAK31 (BioBrick), check sporulated yeast plates (replicate if there is growth), check rollers at 2:45
For tomorrow:  Make YPD plates, redo BioBrick of VPS75 (do not purify PCR product), look at primers of EST1 and MAK31 (BioBrick), check sporulated yeast plates (replicate if there is growth), check rollers at 2:45
 +
<br>
-
2014/8/13
+
<h3>8/13/14</h3>
-
YPD plates made
+
<ul>
 +
<li>YPD plates made</li>
 +
<li>VPS75 colony PCR: From colony 6, 2 samples for biobricking
 +
<dl><dd>Initial: 95 C, 300 sec </dd>
 +
<dd>30 cycles</dd>
 +
<dd>Denature: 95 C, 30 sec</dd>
 +
<dd>Anneal: 56 C, 30 sec</dd>
 +
<dd>Extension: 72 C, 60 sec</dd>
 +
<dd>Final: 72 C, 120sec</dd>
 +
<dd>Hold: 4 C</dd></dl>
 +
</li>
 +
<li>use 1300 for EST2 biobrick PCR (post senescent)</li>
 +
<li>made 2 250 mL bottles for YPD plates</li>
 +
<li>Ran gel of VPS75 biobrick (~1K bp expected)
 +
<dl><dd>Gel 1 Wells: 1 Blank ; 2 QuickLoad 1Kb Lab ; 3 colony 6, VPS751 ; 4 VPS75 2 ;</dd>
 +
<dd>Results: 1 kB bands</dd></dl></li>
 +
<li>PCR of EST2, MAK31 biobrick: EXT time 90 sec, Final step: 420 sec</li>
 +
<li>yeast growth curve check: OD600 readings<br>
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Cell Density</td><td>Dilution Volume</td></tr>
 +
<tr><td>YPD Blank</td><td class="right">0.112</td><td></td><td></td></tr>
 +
<tr><td>EST2 neat</td><td class="right">0.61</td><td class="right">6.1*10E7</td><td class="right">8 uL</td></tr>
 +
<tr><td>VPS75 neat</td><td class="right">1.345</td><td class="right">1.345*10E8</td><td class="right">4 uL</td></tr>
 +
<tr><td>MAK31 neat</td><td class="right">1.318</td><td class="right">1.318*10E8</td><td class="right">4 uL</td></tr>
 +
<tr><td>W303A neat</td><td class="right">1.209</td><td class="right">1.209*10E8</td><td class="right">4 uL</td></tr>
 +
</table>
 +
<br>cells diluted to 1*10E5cells/ uL, triplicate samples, put in roller at 3:30PM
 +
</li>
 +
<li><dl><dt>Nanodrop concentrations</dt>
 +
<dd>VPS751 527.0 ng/uL</dd>
 +
<dd>VPS752 690.9 ng/uL</dd></dl></li>
 +
</ul>
 +
<br>
-
VPS75 colony PCR: From colony 6, 2 samples for biobricking
+
For tomorrow: double digest VPS75 insert<br>
 +
Redo PCRs for double knockout screening<br>
 +
Prepare for meeting<br>
 +
Check yeast rollers<br>
 +
Check sporulated yeast plates<br>
-
Initial: 95 C, 300 sec
+
<h3>8/14/14</h3>
-
30 cycles
+
-
Denature: 95 C, 30 sec
+
-
Anneal: 56 C, 30 sec
+
-
Extension: 72 C, 60 sec
+
-
Final: 72 C, 120sec
+
-
Hold: 4 C
+
-
-use 1300 for EST2 biobrick PCR (post senescent)
+
-
-made 2 250 mL bottles for YPD plates
+
-
-Ran gel of VPS75 biobrick (~1K bp expected)
+
-
+
-
Gel 1 Wells: 1 Blank ; 2 QuickLoad 1Kb Lab ; 3 colony 6, VPS751 ; 4 VPS75 2 ;
+
<ul>
 +
<li>Double Digest: (done for each VPS75 1 and VPS752)
 +
<dl><dd>Buffer H: 2 uL</dd>
 +
<dd>BSA: 2uL</dd>
 +
<dd>VPS75: 3.7 uL</dd>
 +
<dd>ddH2O: 10.3 uL</dd>
 +
<dd>EcoRI: 1uL</dd>
 +
<dd>PstI: 1uL</dd>
 +
<dd>Incubate at 37C for 60 min</dd>
 +
<dd>Heat at 70C for 15 min</dd></dl></li>
 +
<li>Checked concentrations, but received negative concentrations... did calculations manually:
 +
<dl><dd>VPS751: 2556.33 ng/20 uL = 127.8 ng/uL</dd>
 +
<dd>VPS752: 1950 ng/20 uL = 97.5 ng/uL</dd></li>
 +
<li>Stored double digested VPS751 and VPS752 at -20C till further instructions on how to ligate.</li>
 +
<li>Ran gel of yesterday's PCR to check biobrick primers
 +
<dl><dd>Wells: 1, blank; 2, versa ladder; 3, E; 4, MB; 5, M7</dd></dl></li>
 +
<li>Made four 1% gels</li>
 +
<li>colony PCR'ed 13 samples for double knockout (Program 334)
 +
<dl><dd>PCR conditions</dd>
 +
<dd>ext. time 30</dd>
 +
<dd>anneal temp 56</dd>
 +
<dd>final step 420</dd>
 +
<dd>cycles 30</dd></dl></li>
 +
<li>yeast growth curve check: OD600 readings
 +
<table>
 +
<tr><td>;</td><td>OD600</td><td>Dilution Volume</td></tr>
 +
<tr><td>YPD Blank</td><td class="right">0.116</td><td></td></tr>
 +
<tr><td>MAK31 1</td><td class="right">1.246</td><td class="right">4 uL</td></tr>
 +
<tr><td>MAK31 2</td><td class="right">1.22</td><td class="right">4 uL</td></tr>
 +
<tr><td>MAK31 3</td><td class="right">1.084</td><td class="right">4.6 uL</td></tr>
 +
<tr><td>EST2 1</td><td class="right">0.178</td><td class="right">28 uL</td></tr>
 +
<tr><td>EST2 2</td><td class="right">0.242</td><td class="right">20.7 uL</td></tr>
 +
<tr><td>EST2 3</td><td class="right">0.222</td><td class="right">22.5 uL</td></tr>
 +
<tr><td>VPS75 1</td><td class="right">1.219</td><td class="right">4.1 uL</td></tr>
 +
<tr><td>VPS75 2</td><td class="right">1.192</td><td class="right">4.2 uL</td></tr>
 +
<tr><td>VPS75 3</td><td class="right">1.189</td><td class="right">4.2 uL</td></tr>
 +
<tr><td>W303A 1</td><td class="right">1.128</td><td class="right">4.4 uL</td></tr>
 +
<tr><td>W303A 2</td><td class="right">1.127</td><td class="right">4.4 uL</td></tr>
 +
<tr><td>W303A 3</td><td class="right">1.037</td><td class="right">4.8 uL</td></tr>
 +
</table><br>
 +
put yeast cultures in roller @ 4:00PM</li>
 +
<li>Duplicated 3 plates of sporulated cells onto
 +
<dl><dd>Leu-/KANMX (Rad52::Leu2 and EST2::KANMX)</dd>
 +
<dd>Leu- (RAD52::LEU2)</dd>
 +
<dd>KANMX (EST2::KANMX)</dd>
 +
<dd>HIS- (SGS1::HIS3)</li></dd></dl></li>
 +
<li>Updated wiki outreach page</li>
 +
</ul>
 +
<br>
-
Results: 1 kB bands
 
-
-PCR of EST2, MAK31 biobrick: EXT time 90 sec, Final step: 420 sec
 
-
-yeast growth curve check: OD600 readings
+
<h3>8/15/14</h3>
-
Row A Wells:
+
<ul>
 +
<li>Observed 1 cell with RAD52 and EST2 knocked out as well as 1 cell with EST2 and SGS1 knocked out</li>
 +
<li>the Leu-/KANMX plate may be missing the EST2::KANMX since those plates look identical to the Leu- Plates
 +
<dl><dd>Gel 1: 1, Versa Ladder; 2, A3; 3, A4; 4, B3; 5, B4; 6, C3; 7, C4; 8, E3;</dd>
 +
<dd>Gel 2: 1, Versa Ladder; 2, D3; 3, D5; 4, E1; 5, E2; 6, E3; 7, E4; 8, E5;</dd></dl><br>
 +
The E3 in Gel 2 looked faint so we ran E3 on gel 1 as well.</li>
 +
<li>Found protocol to isolate DNA in yeast cells
 +
<dl><dt>RAD52 EST2 Knockouts</dt>
 +
<dd>innoculate culture (5 mL for curve)</dd>
 +
<dd>use 1 mL of saturated culture</dd>
 +
<dd>mix above with 1 mL of 60% glycerol</dd>
 +
<dd>vortex (label clearly)</dd>
 +
<dd>store at -80 C<dd>
 +
<dt>RAD52 EST2 Growth Curve</dt>
 +
<dd>Take 1/2 of colony</dd>
 +
<dd>innoculate in 5 mL YPD</dd>
 +
<dd>triplicate samples tomorrow</dd></li>
 +
<li>Make more sporulated yeast cell plates (~500 cells)
 +
<dl><dd>Zymolased with 10 uL</dd>
 +
<dd>Made 6 plates with ~450 cells</dd></dl></li>
 +
<li>Yeast Growth Curves
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>YPD</td><td class="right">0.146</td><td></td></tr>
 +
<tr><td>W303A 1</td><td class="right">1.074</td><td class="right">4.6 uL</td></tr>
 +
<tr><td>W303A 2</td><td class="right">0.937</td><td class="right">5.3 uL</td></tr>
 +
<tr><td>W303A 3</td><td class="right">0.994</td><td class="right">5 uL</td></tr>
 +
<tr><td>MAK31 1</td><td class="right">1.035</td><td class="right">4.8 uL</td></tr>
 +
<tr><td>MAK32 2</td><td class="right">1.25</td><td class="right">4 uL</td></tr>
 +
<tr><td>MAK32 3</td><td class="right">1.25</td><td class="right">4 uL</td></tr>
 +
<tr><td>VPS 1</td><td class="right">1.184</td><td class="right">4.2 uL</td></tr>
 +
<tr><td>VPS 2</td><td class="right">1.187</td><td class="right">4.2 uL</td></tr>
 +
<tr><td>VPS 3</td><td class="right">1.044</td><td class="right">4.8 uL</td></tr>
 +
<tr><td>EST2 1</td><td class="right">0.762</td><td class="right">6.6 uL</td></tr>
 +
<tr><td>EST2 2</td><td class="right">1.321</td><td class="right">3.8 uL</td></tr>
 +
<tr><td>EST2 3</td><td class="right">0.469</td><td class="right">10.7 uL</td></tr>
 +
</table></li>
 +
<li>Also made a RAD52 & EST2 tube and put in roller at ~5:30PM</li>
 +
</ul>
-
+
<br>
-
1, YPD blank 2, EST2 neat 3, VPS75 neat 4, MAK31 neat 5, W303A neat
+
<h3>8/16/14</h3>
-
.112 .610 1.345 1.318 1.209
+
-
cell density 6.1*10E7 1.345*10E8 1.318*10E8 1.209*10E8
+
-
dilution volume 8 uL 4uL 4uL 4uL
+
-
cells diluted to 1*10E5cells/ uL, triplicate samples, put in roller at 3:30PM
+
-
Nanodrop concentrations:
+
Yeast Growth Curves
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>YPD</td><td class="right">0.134</td><td></td></tr>
 +
<tr><td>W303A 1</td><td class="right">0.602</td><td class="right">8uL</td></tr>
 +
<tr><td>W303A 2</td><td class="right">0.592</td><td class="right">8 uL</td></tr>
 +
<tr><td>W303A 3</td><td class="right">0.555</td><td class="right">8 uL</td></tr>
 +
<tr><td>MAK31 1</td><td class="right">1.032</td><td class="right">5 uL</td></tr>
 +
<tr><td>MAK32 2</td><td class="right">0.92</td><td class="right">5 uL</td></tr>
 +
<tr><td>MAK32 3</td><td class="right">1.008</td><td class="right">5 uL</td></tr>
 +
<tr><td>VPS 1</td><td class="right">0.52</td><td class="right">7 uL</td></tr>
 +
<tr><td>VPS 2</td><td class="right">0.675</td><td class="right">7 uL</td></tr>
 +
<tr><td>VPS 3</td><td class="right">0.719</td><td class="right">7 uL</td></tr>
 +
<tr><td>EST2 1</td><td class="right">0.497</td><td class="right">7.5 uL</td></tr>
 +
<tr><td>EST2 2</td><td class="right">0.681</td><td class="right">7.5 uL</td></tr>
 +
<tr><td>EST2 3</td><td class="right">0.582</td><td class="right">7.5 uL</td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">0.836</td><td class="right">6 uL</td></tr>
 +
</table>
-
VPS751 527.0 ng/uL
+
<br>
-
VPS752 690.9 ng/uL
+
<dl><dt>Dilutions</dt>
 +
<dd> W303A: ~8uL-> 1</dd>
 +
<dd>VPS75: ~7uL -> 3</dd>
 +
<dd>EST2: ~7.5 uL -> 3</dd>
 +
<dd>MAK31: ~5uL -> 1</dd>
 +
<dd>RAD52: ~6uL</dd></dl>
 +
<br>
 +
Sporulated 2 & 3 were empty and trashed<br>
-
 
-
For tomorrow:
 
-
-double digest VPS75 insert
+
<h3>8/17/14</h3>
-
-redo PCRs for double knockout screening
+
-
-prepare for meeting
+
-
-check yeast rollers
+
-
-check sporulated yeast plates
+
-
8/14/14
+
Yeast Growth Curves
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>YPD</td><td class="right">0.117</td><td></td></tr>
 +
<tr><td>W303A 1</td><td class="right">0.67</td><td class="right">7.5 uL</td></tr>
 +
<tr><td>W303A 2</td><td class="right">0.643</td><td class="right">7.8 uL</td></tr>
 +
<tr><td>W303A 3</td><td class="right">0.662</td><td class="right">7.6 uL</td></tr>
 +
<tr><td>MAK31 1</td><td class="right">1.184</td><td class="right">4.2 uL</td></tr>
 +
<tr><td>MAK32 2</td><td class="right">1.207</td><td class="right">4.1 uL</td></tr>
 +
<tr><td>MAK32 3</td><td class="right">1.171</td><td class="right">4.3 uL</td></tr>
 +
<tr><td>VPS 1</td><td class="right">0.744</td><td class="right">6.7 uL</td></tr>
 +
<tr><td>VPS 2</td><td class="right">0.705</td><td class="right">7.1 uL</td></tr>
 +
<tr><td>VPS 3</td><td class="right">0.724</td><td class="right">6.9 uL</td></tr>
 +
<tr><td>EST2 1</td><td class="right">0.706</td><td class="right">7.1 uL</td></tr>
 +
<tr><td>EST2 2</td><td class="right">1.51</td><td class="right">3.3 uL</td></tr>
 +
<tr><td>EST2 3</td><td class="right">1.29</td><td class="right">3.9 uL</td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">0.121</td class="right"><td>6 uL</td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">0.116</td><td></td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">0.107</td><td></td></tr></table>
 +
<ul>
 +
<li>Incubated another RAD52 & EST2 in 5 mL YPD</li>
 +
<li>Put in roller @ 5:30PM </li>
 +
<li>For tomorrow: freeze saturated RAD52&EST2, make 60% glycerol</li>
 +
</ul><br>
-
Double Digest: (done for each VPS75 1 and VPS752)
 
-
Buffer H, 2 uL
+
<h3>8/18/14</h3>
-
BSA, 2uL
+
-
VPS75, 3.7 uL
+
-
ddH2O, 10.3 uL
+
-
ECORI, 1uL
+
-
PST1, 1uL
+
-
Incubate at 37C for 60 min
+
-
Heat at 70C for 15 min
+
-
-Checked concentrations, but received negative concentrations... did calculations manually:
+
-
VPS751: 2556.33 ng/20 uL = 127.8 ng/uL
+
Yeast Growth Curves<br>
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>W303A 1</td><td class="right">0.23</td><td class="right">21.7</td></tr>
 +
<tr><td>W303A 2</td><td class="right">0.298</td><td class="right">16.8</td></tr>
 +
<tr><td>W303A 3</td><td class="right">0.225</td><td class="right">22.2</td></tr>
 +
<tr><td>MAK31 1</td><td class="right">1.196</td><td class="right">4.2</td></tr>
 +
<tr><td>MAK32 2</td><td class="right">1.194</td><td class="right">4.2</td></tr>
 +
<tr><td>MAK32 3</td><td class="right">1.212</td><td class="right">4.1</td></tr>
 +
<tr><td>VPS75 1</td><td class="right">1.115</td><td class="right">4.5</td></tr>
 +
<tr><td>VPS75 2</td><td class="right">1.115</td><td class="right">5</td></tr>
 +
<tr><td>VPS75 3</td><td class="right">1.084</td><td class="right">4.7</td></tr>
 +
<tr><td>EST2 1</td><td class="right">0.518</td><td class="right">9.7</td></tr>
 +
<tr><td>EST2 2</td><td class="right">0.678</td><td class="right">7.4</td></tr>
 +
<tr><td>EST2 3</td><td class="right">0.528</td><td class="right">9.5</td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">0.137</td><td></td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">1.018</td><td class="right">4.5</td></tr>
 +
<tr><td>RAD52&EST2</td><td class="right">0.498</td><td class="right">10</td></tr>
 +
</table>
 +
<br>
 +
<ul>
 +
<li>Put in roller at 5:00pm</li>
 +
<li>Wildtype culture samples were thrown out because of evidence of contamination</li>
 +
<li>Ran gel for biobrick primers. Yielded results of ~200bp when the expected result was ~1000bp</li>
 +
<li>Made triplicate samples of RAD52 EST2 inoculated yesterday (8/17).  Also froze -80 C with 1 mL yeast, 1mL 60% glycerol (2 samples). </li>
 +
</ul>
 +
<br>
-
VPS752: 1950 ng/20 uL = 97.5 ng/uL
+
<h3>8/19/14</h3>
-
Stored double digested VPS751 and VPS752 at -20C till further instructions on how to ligate.
+
<ul>
 +
  <li>Zymolased sporulated samples w/ 15 uL @ 1:05 PM - 2 tubes - followed protocol from 8/11</li>
 +
  <li>Sporulated samples turned out to be contaminated, and were thrown out</li>
 +
  <li>Double Digested VPS75 1 and VPS 75 2
 +
<dl><dd>Incubated @ 1:13PM 37 C for 60 min</dd>
 +
<dd>Heated @ 2:14PM 70C for 15 min</dd>
 +
<dd>followed same protocol for 8/14 double digest, total volume 20 uL</dd></dl></li>
 +
  <li>Purified VPS75 double digests (1 and 2)
 +
<dl><dt>Nanodrop results</dt><dd> (1): 5.6 ng/uL</dd><dd> (2): 4.2 ng/uL</dd></dl></li>
 +
  <li>Made two sporulation tubes and put in roller (Check in 5 days)
 +
<dl><dd>Used 5 mL sporulation media</dd>
 +
<dd>1305 (1) and 1305 (2)</dd></dl></li>
 +
  <li>Yeast Growth Curves
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>YPD (blank)</td><td>0.119</td><td></td></tr>
 +
<tr><td>MAK31 1</td><td>1.166</td><td>4.3 uL</td></tr>
 +
<tr><td>MAK32 2</td><td>1.19</td><td>4.2 uL</td></tr>
 +
<tr><td>MAK32 3</td><td>1.176</td><td>4.3 uL</td></tr>
 +
<tr><td>VPS75 1</td><td>1.137</td><td>4.4 uL</td></tr>
 +
<tr><td>VPS75 2</td><td>1.13</td><td>4.4 uL</td></tr>
 +
<tr><td>VPS75 3</td><td>1.206</td><td>4.1 uL</td></tr>
 +
<tr><td>EST2 1</td><td>1.201</td><td>4.2 uL</td></tr>
 +
<tr><td>EST2 2</td><td>0.57</td><td>8.8 uL</td></tr>
 +
<tr><td>EST2 3</td><td>0.573</td><td>8.7 uL</td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.114</td><td></td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.121</td><td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.117</td><td></td></tr>
 +
<tr><td>RAD52 EST2 (set 2)</td><td>0.111</td><td></td></tr>
 +
<tr><td>RAD52 EST2 (2)</td><td>0.546</td><td>9.2 uL</td></tr>
 +
<tr><td>RAD52 EST2 (3)</td><td>0.114</td><td></td></tr>
 +
</table></li>
 +
  <li>Need to start generating curves for RAD52/EST2 as well as update graphs and std. dev./error bars </li>
 +
</ul>
-
-Ran gel of yesterday's PCR to check biobrick primers
 
-
Wells: 1, blank; 2, versa ladder; 3, E; 4, MB; 5, M7
 
-
-Made four 1% gels
+
<h3>8/20/14</h3>
-
-colony PCR'ed 13 samples for double knockout (Program 334)
+
<ul>
 +
  <li>Double-knockout Screening: A5, A6, B5, B6, C5, C6, D5, D6, E1, E2, E3, E4, E5. Used same plates as before, choose  new colonies for plates A, B, C, and D</li>
 +
  <li>swirled colonies each in 200 uL ddH2O tubes</li>
 +
  <li>PCR tubes: 20 uL ddH2O+colonies, 2.5 uL reverse and forward primers (EST1)rs </li>
 +
  <li>Ligation notes:</li>
 +
  <li>Team page wiki ideas:</li>
 +
  <li>Yeast Growth Curves
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>YPD (blank)</td><td>0.125</td><td></td></tr>
 +
<tr><td>MAK31 1</td><td>1.274</td><td>3.9 uL</td></tr>
 +
<tr><td>MAK32 2</td><td>1.227</td><td>4.1 uL</td></tr>
 +
<tr><td>MAK32 3</td><td>1.259</td><td>4.0 uL</td></tr>
 +
<tr><td>VPS75 1</td><td>1.241</td><td>4.0 uL</td></tr>
 +
<tr><td>VPS75 2</td><td>1.213</td><td>4.1 uL</td></tr>
 +
<tr><td>VPS75 3</td><td>1.206</td><td>4.1 uL</td></tr>
 +
<tr><td>EST2 1</td><td>1.476</td><td>3.4 uL</td></tr>
 +
<tr><td>EST2 2</td><td>1.121</td><td>4.5 uL</td></tr>
 +
<tr><td>EST2 3</td><td>0.609</td><td>8.2 uL</td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.107</td><td></td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.458</td><td></td> </tr>
 +
<tr><td>RAD52&EST2</td><td>0.109</td><td></td></tr>
 +
<tr><td>RAD52 EST2 (set 2)</td><td>0.129</td><td></td> </tr>
 +
<tr><td>RAD52 EST2 (2)</td><td>0.142</td><td></td> </tr>
 +
<tr><td>RAD52 EST2 (3)</td><td>0.143</td><td></td></tr>
 +
</table></li>
 +
</ul>
-
PCR conditions
 
-
ext. time 30
 
-
anneal temp 56
 
-
final step 420
 
-
cycles 30
 
-
Plate Reader OD600
 
-
Row A
 
-
 
-
6 7 8 9 10 11 12
 
-
Blank YPD MAK31 1 MAK31 2 MAK31 3 EST2 1 EST2 2 EST2 3
 
-
0.116 1.246 1.220 1.084 0.178 0.242
 
-
0.222
 
-
 
-
4 uL 4 uL 4.6 uL 28 uL 20.7 uL 22.5 uL
 
-
Row B
 
-
 
-
1 2 3 4 5 6
 
-
VPS75 1 VPS75 2 VPS75 3 W303A 1 W303A 2 W303A 2
 
-
1.219 1.192 1.189 1.128 1.127 1.037
 
-
4.1 uL 4.2 uL 4.2 uL 4.4 uL 4.4 uL 4.8 uL
 
-
-put yeast cultures in roller @ 4:00PM
 
-
 
-
-Duplicated 3 plates of sporulated cells onto
 
-
 
-
Leu-/KANMX (Rad52::Leu2 and EST2::KANMX)
 
-
Leu- (RAD52::LEU2)
 
-
KANMX (EST2::KANMX)
 
-
HIS- (SGS1::HIS3)
 
-
-Updated wiki outreach page
 
   
   
 +
<h3>8/21/14:</h3>
 +
<ul>
 +
  <li>Made two 1% gels</li>
 +
  <li>Ran gels of double knockout colony PCR screenings
 +
  <dl><dd>Gel 1: VersaLadder, A5, A6, B5, B6, C5, C6</dd>
 +
<dd>Gel 2: VersaLadder, D5, D6, E1, E2, E3, E4, E5</dd></dl></li>
 +
  <li>yeast growth curve
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td> </tr>
 +
<tr><td>MAK31 1</td><td>1.147</td><td>4.4</td></tr>
 +
<tr><td>MAK32 2</td><td>1.158</td><td>4.3</td></tr>
 +
<tr><td>MAK32 3</td><td>1.187</td><td>4.2</td></tr>
 +
<tr><td>VPS75 1</td><td>1.15</td><td>4.3</td></tr>
 +
<tr><td>VPS75 2</td><td>1.152</td><td>4.3</td></tr>
 +
<tr><td>VPS75 3</td><td>1.161</td><td>4.3</td></tr>
 +
<tr><td>EST2 1</td><td>1.265</td><td>4</td></tr>
 +
<tr><td>EST2 2</td><td>0.651</td><td>77</td></tr>
 +
<tr><td>EST2 3</td><td>0.576</td><td>8.7</td>
 +
</tr>
 +
<tr><td>RAD52&EST2</td><td>0.101</td><td></td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.478</td><td>10.3</td></tr>
 +
<tr><td>RAD52&EST2</td><td>1.393</td><td>3.6</td></tr>
 +
<tr><td>RAD52 EST2 (set 2)</td><td>1.4</td><td></td></tr>
 +
<tr><td>RAD52 EST2 (2)</td><td>1.562</td><td>8.9</td></tr>
 +
<tr><td>RAD52 EST2 (3)</td><td>1.116</td><td></td></tr>
 +
</table>
 +
</li>
 +
</ul>
-
8/15/14
 
-
-Observed 1 cell with RAD52 and EST2 knocked out as well as 1 cell with EST2 and SGS1 knocked out
+
<h3>8/22/14</h3>
-
 
+
<br>
-
-the Leu-/KANMX plate may be missing the EST2::KANMX since those plates look identical to the Leu- Plates
+
Yeast Growth Curve
 +
<table>
 +
<tr><td></td><td>OD600</td><td>Dilution</td></tr>
 +
<tr><td>YPD (blank)</td><td>0.144</td><td></td></tr>
 +
<tr><td>MAK31 1</td><td>1.232</td><td>4.1</td></tr>
 +
<tr><td>MAK32 2</td><td>1.19</td><td>4.2</td></tr>
 +
<tr><td>MAK32 3</td><td>1.197</td><td>4.2</td></tr>
 +
<tr><td>VPS75 1</td><td>1.154</td><td>4.6</td></tr>
 +
<tr><td>VPS75 2</td><td>1.141</td><td>4.4</td></tr>
 +
<tr><td>VPS75 3</td><td>1.153</td><td>4.3</td></tr>
 +
<tr><td>EST2 1</td><td>1.274</td><td>3.9</td></tr>
 +
<tr><td>EST2 2</td><td>0.656</td><td>7.6</td></tr>
 +
<tr><td>EST2 3</td><td>0.666</td><td>7.5</td></tr>
 +
<tr><td>RAD52&EST2</td><td>0.105</td><td></td></tr>
 +
<tr><td>RAD52&EST2</td><td>1.21</td><td>4.1</td></tr>
 +
<tr><td>RAD52&EST2</td><td>1.611</td><td>3.1</td></tr>
 +
<tr><td>RAD52 EST2 (set 2)</td><td>0.185</td><td></td></tr>
 +
<tr><td>RAD52 EST2 (2)</td><td>0.7</td><td>7.1</td></tr>
 +
<tr><td>RAD52 EST2 (3)</td><td>0.233</td><td>21.5</td> </tr>
 +
</table>
 +
<br>
 +
<h3>8/25/14</h3>
 +
<br>
 +
<ul>
 +
  <li>Dephysophorylated vector DNA</li>
 +
  <li>Ligation calculator 3:1</li>
 +
  <li>Not Dephosphorylated
 +
<dl><dd>45 ng insert DNA - 9 uL (5.6 ng/uL)</dd>
 +
<dd>30 ng vector DNA - 3 uL</dd>
 +
<dd>10X T4 DNA ligase buffer - 2 uL</dd>
 +
<dd>water - 5 uL</dd>
 +
<dd>T4 DNA ligase - 1 uL</dd>
 +
<dd>Total Volume: 20 uL</dd></dl></li>
 +
  <li>Dephosphorylated
 +
<dl><dd>45 ng insert DNA - 9 uL (5.6 ng/uL)</dd>
 +
<dd>30 ng vector DNA - 10 uL</dd>
 +
<dd>10x T4 DNA ligase buffer - 2.5 uL</dd>
 +
<dd>water - 2.5 uL</dd>
 +
<dd>T4 DNA ligase - 1.25 uL</dd>
 +
<dd>Total Volume: 25 uL</dd></dl>
 +
</li>
 +
  <li>15 uL zymolase w sporulated cells (protocol on 8/11/14)</li>
 +
  <li>Counted cells and averaged for 444 in sample 2 and 560 in sample 1</li>
 +
  <li>Made 3 plates of each sample</li>
 +
  <li>RAD52/EST2 cells from the last growth curve were contaminated with bacteria</li>
 +
  <li>Made 2 bottles of 250 mL YPD</li>
 +
  <Dl><dt>1 bottle for YPD plates</dt>
 +
  <dt>LB plates:</dt>
 +
<dd>LB - Lennox Broth - 4g</dd>
 +
<dd>agar 1.5% - 3g (in 200 mL)</dd>
 +
<dd>Autoclave -> don't add things when it's too hot</dd>
 +
<dd>Add Chlor (1000x) - 200 uL​</dd>
 +
<dt>40% Glucose</dt>
 +
<dd>multiply 40% by mL to get grams of dextrose</dd>
 +
<dd>used 120g dextrose and 300 mL</dd>
 +
<dd>stirred & heated glucose in 100 mL dH20 then added more dH20 till the desired level of 300mL</dd></dl></li>
 +
  <li>restreaked MATA and MAT&alpha; for mating type checks of 1294, 1296, 1300, 1880 (VT6, MTB, MT7)</li>
 +
</ul>
 +
<br>
 +
<dl><dt>For tomorrow/things to do</dt>
 +
<dd><li>if start yeast curves, start them at noon</dd>
 +
<dd><li>finish up ligation</dd>
 +
<dd><li>check on plates in incubator - maybe redo kan- plate w/ ypd if we do replicate yeast</dd>
 +
<dd><li>double knockout screening -check other colonies/re-do</dd>
 +
<dd><li>biobrick primers</dd>
 +
<dd><li>yeast dna protocol - redo w/ biobrick primers</dd>
 +
<dd><li>innoculate RAD52/EST2 colony at noon</dd>
 +
<dd><li>put ligations in -20C in morning</dd></dt>
   
   
 +
<br>
-
Gel 1: 1, Versa Ladder; 2, A3; 3, A4; 4, B3; 5, B4; 6, C3; 7, C4; 8, E3;
+
<h3>8/26/14</h3>
 +
<ul>
 +
  <li>ligations put in -20 C</li>
 +
  <li>restreaked MAK31::TRP1 colony 7 </li>
 +
  <li>inoculated and put in roller at noon:
 +
<dl><dd>1880</dd>
 +
<dd>VPS75::TRP1 colony 6</dd>
 +
<dd>EST2 1296</dd>
 +
<dd>RAD52/EST2</dd></dl> </li>
 +
  <li>yeast genomic DNA extraction protocol for biobricking
 +
<dl><dt>nanodrop results</dt>
 +
<dd>EST2 (1300) : 41/6 ng/uL</dd>
 +
<dd>MAK31 (MT7) : 14.4 ng/uL</dd>
 +
<dd>VPS75 (VT6) : 26.0 ng/uL </dd></dl>
 +
</li>
 +
  <li>ran PCR of EST2, MAK31, VPS75 for biobricking
 +
<dl><dd>30 cycles</dd>
 +
<dd>95 C, 30 sec</dd>
 +
<dd>56 C, 30 sec</dd>
 +
<dd>72 C, 90 sec</dd>
 +
<dd>72 C, 120 sec</dd></dl>
 +
</li>
 +
  <li>Made 2 250 mL bottles for YPD plates</li>
 +
  <li>1 250 mL bottle for KANMX plates (250 uL G418)</li>
 +
</ul>
 +
<br>
 +
<dl><dt>For tomorrow</dt>
 +
<dd><li>Run gels of biobrick inserts</dd>
 +
<dd><li>if they worked, double digest, purify</dd>
 +
<dd><li>transform along with VPS75</dd>
 +
<dd><li>Select more sporulated cells</dd>
 +
<dd><li>Check cells growing on sporulated plates </dd>
 +
<dd><li>Growth curve at noon (make triplicate samples)</dd>
 +
<dd><li>check mating type of EST2/RAD52, 1294, 1296, 1300, 1880 (VT6, MTB, MT7)</dd>
 +
<dd><li>mate EST2 and MAK31/VPS75 for sporulation</dd><br>
-
Gel 2: 1, Versa Ladder; 2, D3; 3, D5; 4, E1; 5, E2; 6, E3; 7, E4; 8, E5;
+
<dt>Research</dt>
 +
<dd><li>gibson assembly (isothermal) for "super plasmid"</dd>
 +
<dd><li>yeast operons ( for EST2, RAD52 )</dd>
 +
<dd><li>prerecombinase done in iGEM already?</dd>
 +
<dd><li>biobuilder.org -> look for beta carotene yeast, possibly use as a measure to characterize growth curves, senescence vs nonsenecence</dd>
 +
<dd><li>thin layer chromatography (TLC)</dd>
 +
<dd><li>gas chromatography </dd>
 +
<dd><li>check iGEM deadlines</dd></dl>
-
The E3 in Gel 2 looked faint so we ran E3 on gel 1 as well.
+
<br>
-
- Found protocol to isolate DNA in yeast cells
+
<h3>8/27/14</h3>
 +
<br>
 +
<ul>
 +
  <li>Zymolased (2) and (3) sporulation samples with 15 uL at 11:30 AM, wait 30 min
 +
<dl><dd>(2) after diluting 2 times 1/10, counted an average of 88 cells (with 87 and 95)</dd>
 +
<dd>(3) after diluting 2 times 1/10, counted on average 82 cells (with 80 and 84)</dd></dl></li>
 +
  <li>Made 2 1% gels
 +
<dl><dd>Ran gel of biobricking PCR product </dd>
 +
<dd>Wells: 1 blank ; 2 blank ; 3 Versa Ladder ; 4 EST2 ; 5 MAK31 ; 6 VPS75</dd>
 +
<dt>Gel Results</dt>
 +
<dd>EST2 - band on 2K bp</dd>
 +
<dd>MAK31 - band on 600 bp</dd>
 +
<dd>VPS75 -band on 1K bp </dd>
 +
<dd>1K expected...</dd><dl>
 +
</li>
 +
  <li>checked mating types of 1880, VT6, MTB, MT7, EST2/RAD52</li>
 +
  <li>Made 1 250 mL bottle for SD plates (for mating selection) (no dropout mix added
 +
<dl><dd>1 bottle KAN/LEU</dd>
 +
<dd>1 bottle HIS</dd></li></ul>
-
RAD52 EST2 Knockouts
+
<br>
-
innoculate culture (5 mL for curve)
 
-
use 1 mL of saturated culture
 
-
mix above with 1 mL of 60% glycerol
 
-
vortex (label clearly)
 
-
store at -80 C
 
-
RAD52 EST2 Growth Curve
 
-
Take 1/2 of colony
+
<h3>8/29/2014</h3>
-
innoculate in 5 mL YPD
+
<br>
-
triplicate samples tomorrow
+
<ul>
-
-Make more sporulated yeast cell plates (~500 cells)
+
  <li>Note: 1880 is DSY strain</li>
 +
  <li>2 250 ml LEU- plates made </li>
 +
  <li>VPS75 BB transformation check
 +
<dl><dd>1 white colony on 1 dephosphorylcoted plate</dd>
 +
<dd>dense reds on not plates==> restreaked white colonies on gridded chlor- plates</dd></dl></li>
 +
  <li>Mating type plate of EST2/RAD52, 1880, VT6, MTB,MT7
 +
<dl><dd>=>MATA:1880 MTB,VT6,EST2,RAD52</dd>
 +
<dd>MT7 grew on both sides (possible diploid)</dd></dl></li>
 +
  <li>replicated 1294 1296 1300 on SD selection plate</li>
 +
  <li>replicated sporulated cells
 +
<dl><dd>Stopped growth curve for weekend</dd>
 +
<dd>Cell densities in notebook</dd></dl></li>
 +
</ul>
 +
<br>
 +
<h3>9/4/2014</h3>
 +
<br>
 +
<ul>
 +
  <li>mini prepped VPS75 BB and stored in -20C (followed protocol on P14)</li>
 +
  <li>prof Medvedik innoculated the VPS75 two nights ago and re-innoculated yesterday -> put in fridge yesterday for today</li>
 +
  <li>nanodrop: 86.5 ng/uL</li>
 +
</ul>
 +
<br>
 +
<h3>9/5/2014</h3>
 +
<br>
 +
<dl><dt>For Sequencing</dt>
 +
<dd><li>10 uL plasmid in each PCR tube (2 tubes)</dd>
 +
<dd><li>5 uL 5 mM FWD primer into 1 tube (labeled SL01)</dd>
 +
<dd><li>5 uL 5 mM REV primer in 2nd tube (labeled SL02)</dd>
 +
<dd><li>Add up how big PSB1C3  (2K) and VPS75 (1K) - those together give a DNA size of 3K</dd>
 +
<dd><li>-make at least 50uL of each primer for the 5mM</dd></dl><br><br>
-
Zymolased with 10 uL
 
-
Made 6 plates with ~450 cells
 
-
Plate Reader
 
-
Row B7 B8 B9 B10 B11 B12 C1 C2 C3 C4 C5 C6 C7
 
-
YPD W303A 1 W303A 2 W303A 3 MAK31 1 MAK32 2 MAK32 3 VPS 1 VPS 2 VPS 3 EST2 1 EST2 2 EST2 3
 
-
Reading .146 1.074 0.937 0.994 1.035 1.250 1.250 1.184 1.187 1.044 0.762 1.321 0.469
 
-
Dilution 4.6 uL 5.3 uL 5 uL 4.8 uL 4 uL 4 uL 4.2 uL 4.2 uL 4.8 uL 6.6 uL 3.8 uL 10.7 uL
 
-
-Rediluted to 1x10E5 and put in roller at ~5:00 PM
 
-
- Also made a RAD52 & EST2 tube and put in roller at ~5:30PM
 
-
8/16/14
 
-
 
-
Row A1 A2 A3 A4 B1 B2 B3 C1 C2 C3 D1 D2 D3 E2
 
-
YPD W303A 1 W303A 2 W303A 3 VPS 1 VPS 2 VPS 3 EST2 1 EST2 2 EST2 3 MAK31 1 MAK32 2 MAK32 3 RAD52&EST2
 
-
Reading .134 .602 .592 .555 .520 .675 .719 .497 .681 .582 1.032 .920 1.008 0.836
 
-
Dilution 8uL 8 uL 8 uL 7 uL 7 uL 7 uL 7.5 uL 7.5 uL 7.5 uL 5 uL 5 uL 5 uL 6 uL
 
-
Dilutions: W303A: ~8uL-> 1
 
-
VPS75: ~7uL -> 3
 
-
EST2: ~7.5 uL -> 3
 
-
MAK31: ~5uL -> 1
 
-
RAD52: ~6uL
 
-
 
-
 
-
 
-
Sporulated 2 & 3 were empty and trashed
 
-
 
-
 
-
 
-
8/17/14
 
-
 
-
Row A6 A7 A8 A9 B7 B8 B9 C7 C8 C9 D7 D8 D9 E7 E8 E9
 
-
YPD W303A 1 W303A 2 W303A 3 VPS 1 VPS 2 VPS 3 EST2 1 EST2 2 EST2 3 MAK31 1 MAK32 2 MAK32 3 RAD52&EST2 1 RAD52&EST2 RAD52&EST2 1
 
-
Reading .117 .670 .643 .662 .744 .705 .724 .706 1.510 1.290 1.184 1.207 1.171 .121 .116 .107
 
-
.Dilutions 7.5 uL 7.8 uL 7.6 uL 6.7 uL 7.1 uL 6.9 uL 7.1 uL 3.3 uL 3.9 uL 4.2 uL 4.1 uL 4.3 uL 6 uL
 
-
 
-
 
-
 
-
-Incubated another RAD52 & EST2 in 5 mL YPD
 
-
 
-
-Put in roller @ 5:30PM
 
-
 
-
For tomorrow: freeze saturated RAD52&EST2, make 60% glycerol
 
-
 
-
8/18/14
 
-
 
-
Row
 
-
W303A (1)
 
-
 
-
W303A (2) W303A (3) EST2(1) EST2(2) EST2(3) MAK31(1) MAK31(2) MAK31(3) VPS75 (1) VPS75 (2) VPS75 (3) RAD52 EST2 (1) RAD52 EST2 (2) RAD52 EST2 (3) RAD52 EST2 (8/17)
 
-
Reading .230 0.298 0.225 0.518 .678 .528 1.196 1.194 1.212 1.115 1.084 1.059 1.018 .137 1.116 .498
 
-
Dilution 21.7 16.8 22.2 9.7 7.4 9.5 4.2 4.2 4.1 4.5 5.0 4.7 4.9 4.5 10
 
-
-Put in roller at 5:00pm
 
-
 
-
-Wildtype culture samples were thrown out because of evidence of contamination
 
-
 
-
-Ran gel for biobrick primers. Yielded results of ~200bp when the expected result was ~1000bp
 
-
 
-
-Made triplicate samples of RAD52 EST2 inoculated yesterday (8/17).  Also froze -80 C with 1 mL yeast, 1mL 60% glycerol (2 samples).
 
-
 
-
8/19/14
 
-
 
-
-Zymolased sporulated samples w/ 15 uL @ 1:05 PM - 2 tubes - followed protocol from 8/11
 
-
 
-
-Sporulated samples turned out to be contaminated, and were thrown out
 
-
 
-
-Double Digested VPS75 1 and VPS 75 2
 
-
 
-
Incubated @ 1:13PM 37 C for 60 min
 
-
Heated @ 2:14PM 70C for 15 min
 
-
followed same protocol for 8/14 double digest, total volume 20 uL
 
-
-Purified VPS75 double digests (1 and 2)
 
-
 
-
Nanodrop results: (1): 5.6 ng/uL (2): 4.2 ng/uL
 
-
-Made two sporulation tubes and put in roller (Check in 5 days)
 
-
 
-
Used 5 mL sporulation media
 
-
1305 (1) and 1305 (2)
 
-
Row YPD (blank) VPS(1) VPS(2) VPS(3) MAK31(1) MAK31(2) MAK31(3) EST2(1) EST2(2) EST2(3) RAD52 EST2 (1) RAD52 EST2 (2) RAD52 EST2 (3) RAD52 EST2 1 (8/17) RAD52 EST2 2 (8/17) RAD52 EST2 3 (8/17)
 
-
Reading .119 1.137 1.130 1.206 1.166 1.190 1.176 1.201 0.570 0.573 0.111 0.546 0.114 0.114 0.121 0.117
 
-
Dilution 4.4 uL 4.4 uL 4.1 uL 4.3 uL 4.2 uL 4.3 uL 4.2 uL 8.8 uL 8.7 uL 9.2 uL
 
-
-Need to start generating curves for RAD52/EST2 as well as update graphs and std. dev./error bars
 
-
 
-
8/20/14
 
-
 
-
Double-knockout Screening: A5, A6, B5, B6, C5, C6, D5, D6, E1, E2, E3, E4, E5. Used same plates as before, choose  new colonies for plates A, B, C, and D
 
-
 
-
-swirled colonies each in 200 uL ddH2O tubes
 
-
 
-
-PCR tubes: 20 uL ddH2O+colonies, 2.5 uL reverse and forward primers (EST1)
 
-
 
-
PCR conditions
 
-
 
-
30 cycles
 
-
Denaturing 95 C, 30 sec
 
-
Annealing 56 C, 30 sec
 
-
Extending 72 C, 420 sec
 
-
Final Hold 4 C
 
-
Ligation notes:
 
-
 
-
-use an insert vector calculator
 
-
 
-
6:1 ratio
 
-
-phosphatase treat the vector so it won't religate
 
-
 
-
antarctic phosphatase: Protocol (from NEB website)
 
-
-use T4 ligase: Protocol (from NEB website), cohesive ends and overnight at 16C, any volume should be fine
 
-
 
-
-be sure to thaw and vortex buffer
 
-
 
-
-use vector: 50ng (for online calculator), vector: 2k bp, insert (VPS75): 1K bp
 
-
 
-
Calculation: (w/ 6:1 ratio used) 150 ng of insert DNA to 50 ng of vector DNA
 
-
 
-
Team page wiki ideas:
 
-
 
-
-bios -> group photos & individual photos (sweatshirts?) ->where we work - show the cooper building/kanbar lab
 
-
 
-
-Outreach - add the sweatshirt design picture? - add feedback
 
-
 
-
Notebook suggestion layout: list month/weeks sidebar
 
-
 
-
Plate Reader
 
-
 
-
ROW G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 H1 H2 H3 H4
 
-
CONTENT YPD EST2 1 EST2 2 EST2 3 MAK31 1 MAK31 2 MAK31 3 VPS75 1 VPS75 2 VPS75 3 RAD52/EST2 1 RAD52/EST2 2 RAD52/EST2 3 RAD52/EST2 1 (START 8/17) RAD52/EST2 2 (START 8/17) RAD52/EST2 3 (START 8/17
 
-
CELL DENSITY 0.125 1.476 1.121 .609 1.274 1.227 1.259 1.241 1.213 1.206 .107 .458 .109 .129 .142 .143
 
-
DILUTION 3.4 uL 4.5 uL 8.2 uL 3.9 uL 4.1 uL 4.0 uL 4.0 uL 4.1 uL 4.1 uL
 
-
8/21/14
 
-
 
-
-made 2 1% gels
 
-
 
-
Gel 1: VersaLadder, A5, A6, B5, B6, C5, C6
 
-
 
-
Gel 2: VersaLadder, D5, D6, E1, E2, E3, E4, E5
 
-
 
-
 
-
 
-
8/21/14:
 
-
 
-
- Made two 1% gels
 
-
- Ran gels of double knockout colony PCR screenings
 
-
 
-
Gel 1: VersaLadder, A5, A6, B5, B6, C5, C6
 
-
Gel 2:  VersaLadder, D5, D6, E1, E2, E3, E4, E5
 
-
 
-
Plate Reader :
 
-
 
-
ROW A7 A8 A9 B7 B8 B9 C7 C8 C9 D7 D8 D9 E7 E8 E9
 
-
CONTENT VPS75 1 VPS75 2 VPS75 3 EST2 1 EST2 2 EST2 3 MAK31 1 MAK31 2 MAK31 3 RAD52/EST2 1 RAD52/EST2 2 RAD52/EST2 3 RAD52/EST2 1 (START 8/17) RAD52/EST2 2 (START 8/17) RAD52/EST2 3 (START 8/17)
 
-
CELL DENSITY (*10^8 cells/mL) 1.150 1.152 1.161 1.265 0.651 0.576 1.147 1.158 1.187 0.101 0.478 1.393 0.140 0.562 0.166
 
-
DILUTION (uL) 4.3 4.3 4.3 4 7.7 8.7 4.4 4.3 4.2 -- 10.3 3.6 -- 8.9 --
 
-
8/22/14
 
-
 
-
Plate Reader :
 
-
 
-
ROW H4 A10 A11 A12 B10 B11 B12 C10 C11 C12 D10 D11 D12 E10 E11 E12
 
-
CONTENT YPD VPS75 1 VPS75 2 VPS75 3 EST2 1 EST2 2 EST2 3 MAK31 1 MAK31 2 MAK31 3 RAD52/EST2 1 RAD52/EST2 2 RAD52/EST2 3 RAD52/EST2 1 (START 8/17) RAD52/EST2 2 (START 8/17) RAD52/EST2 3 (START 8/17)
 
-
CELL DENSITY .144 1.154 1.141 1.153 1.274 .655 .666 1.232 1.190 1.197 .105 1.210 1.611 .186 .700 .233
 
-
DILUTION 4.3 4.4 4.3 3.9 7.6 7.5 4.1 4.2 4.2 -- 4.1 3.1 -- 7.1 21.5
 
-
8/25/14
 
-
 
-
-dephysophorylated vector DNA
 
-
 
-
-ligation calculator 3:1
 
-
 
-
-1) Not Dephosphorylated
 
-
 
-
45 ng insert DNA - 9 uL (5.6 ng/uL)
 
-
30 ng vector DNA - 3 uL
 
-
10X T4 DNA ligase buffer - 2 uL
 
-
water - 5 uL
 
-
T4 DNA ligase - 1 uL
 
-
Total Volume: 20 uL
 
-
-2) Dephosphorylated
 
-
 
-
45 ng insert DNA - 9 uL (5.6 ng/uL)
 
-
30 ng vector DNA - 10 uL
 
-
10x T4 DNA ligase buffer - 2.5 uL
 
-
water - 2.5 uL
 
-
T4 DNA ligase - 1.25 uL
 
-
Total Volume: 25 uL
 
-
-15 uL zymolase w sporulated cells (protocol on 8/11/14)
 
-
 
-
-counted cells and averaged for 444 in sample 2 and 560 in sample 1
 
-
 
-
-made 3 plates of each sample
 
-
 
-
-RAD52/EST2 cells from the last growth curve were contaminated with bacteria
 
-
 
-
-made 2 bottles of 250 mL YPD
 
-
 
-
-1 bottle for YPD plates
 
-
 
-
LB plates:
 
-
 
-
LB - Lennox Broth - 4g
 
-
agar 1.5% - 3g (in 200 mL)
 
-
Autoclave -> don't add things when it's too hot
 
-
Add Chlor (1000x) - 200 uL​
 
-
​40% glucose:
 
-
 
-
multiply 40% by mL to get grams of dextrose
 
-
used 120g dextrose and 300 mL
 
-
stirred & heated glucose in 100 mL dH20 then added more dH20 till the desired level of 300mL
 
-
for more chlor, we used 34mg/ml chlor and 10 mL of 99.8% ethanol to make 10 more eppendorphs of Chlor
 
-
 
-
-restreaked MATA and MATalpha for mating type checks of 1294, 1296, 1300, 1880 (VT6, MTB, MT7)
 
-
 
-
For tomorrow/things to do:
 
-
 
-
if start yeast curves, start them at noon
 
-
finish up ligation
 
-
check on plates in incubator - maybe redo kan- plate w/ ypd if we do replicate yeast
 
-
double knockout screening -check other colonies/re-do
 
-
biobrick primers
 
-
yeast dna protocol - redo w/ biobrick primers
 
-
innoculate RAD52/EST2 colony at noon
 
-
put ligations in -20C in morning
 
-
 
-
 
-
8/26/14
 
-
 
-
-ligations put in -20 C
 
-
 
-
- restreaked MAK31::TRP1 colony 7
 
-
 
-
-inoculated and put in roller at noon:
 
-
 
-
1880
 
-
VPS75::TRP1 colony 6
 
-
EST2 1296
 
-
RAD52/EST2
 
-
-yeast genomic DNA extraction protocol for biobricking
 
-
 
-
nanodrop results:
 
-
EST2 (1300) : 41/6 ng/uL
 
-
MAK31 (MT7) : 14.4 ng/uL
 
-
VPS75 (VT6) : 26.0 ng/uL
 
-
-ran PCR of EST2, MAK31, VPS75 for biobricking
 
-
 
-
30 cycles
 
-
95 C, 30 sec
 
-
56 C, 30 sec
 
-
72 C, 90 sec
 
-
72 C, 120 sec
 
-
-Made 2 250 mL bottles for YPD plates
 
-
 
-
-1 250 mL bottle for KANMX plates (250 uL G418)
 
-
 
-
For tomorrow:
 
-
 
-
Run gels of biobrick inserts
 
-
if they worked, double digest, purify
 
-
transform along with VPS75
 
-
Select more sporulated cells
 
-
Check cells growing on sporulated plates
 
-
Growth curve at noon (make triplicate samples)
 
-
check mating type of EST2/RAD52, 1294, 1296, 1300, 1880 (VT6, MTB, MT7)
 
-
mate EST2 and MAK31/VPS75 for sporulation
 
-
Research:
 
-
 
-
gibson assembly (isothermal) for "super plasmid"
 
-
yeast operons ( for EST2, RAD52 )
 
-
prerecombinase done in iGEM already?
 
-
biobuilder.org -> look for beta carotene yeast, possibly use as a measure to characterize growth curves, senescence vs nonsenecence
 
-
thin layer chromatography (TLC)
 
-
gas chromatography
 
-
check iGEM deadlines
 
-
8/27/14
 
-
 
-
-Zymolased (2) and (3) sporulation samples with 15 uL at 11:30 AM, wait 30 min
 
-
 
-
- (2) after diluting 2 times 1/10, counted an average of 88 cells (with 87 and 95)
 
-
 
-
-(3) after diluting 2 times 1/10, counted on average 82 cells (with 80 and 84)
 
-
 
-
-Made 2 1% gels
 
-
 
-
-Ran gel of biobricking PCR product
 
-
 
-
Wells: 1 blank ; 2 blank ; 3 Versa Ladder ; 4 EST2 ; 5 MAK31 ; 6 VPS75
 
-
 
-
Gel Results:
 
-
 
-
EST2 - band on 2K bp
 
-
MAK31 - band on 600 bp
 
-
VPS75 -band on 1K bp
 
-
-1K expected...
 
-
 
-
- checked mating types of 1880, VT6, MTB, MT7, EST2/RAD52
 
-
 
-
-Made 1 250 mL bottle for SD plates (for mating selection) (no dropout mix added)
 
-
 
-
- 1 bottle KAN/LEU
 
-
 
-
-1 bottle HIS
 
-
 
-
 
-
 
-
2014/8/29
 
-
 
-
Note: 1880 is DSY strain
 
-
 
-
-2 250 ml LEU- plates made
 
-
 
-
VPS75 BB transformation check
 
-
 
-
- 1 white colony on 1 dephosphorylcoted plate
 
-
 
-
- dense reds on not plates==> restreaked white colonies on gridded chlor- plates
 
-
 
-
 
-
 
-
Mating type plate of EST2/RAD52, 1880, VT6, MTB,MT7
 
-
 
-
=>MATA:1880 MTB,VT6,EST2,RAD52
 
-
 
-
MT7 grew on both sides (possible diploid)
 
-
 
-
 
-
 
-
-replicated 1294 1296 1300 on SD selection plate
 
-
 
-
 
-
 
-
-replicated sporulated cells
 
-
 
-
Stopped growth curve for weekend
 
-
 
-
Cell densities in notebook
 
-
 
-
9/4/14
 
-
 
-
- mini prepped VPS75 BB and stored in -20C (followed protocol on P14)
 
-
 
-
-prof Medvedik innoculated the VPS75 two nights ago and re-innoculated yesterday -> put in fridge yesterday for today
 
-
 
-
-nanodrop: 86.5 ng/uL
 
-
 
-
9/5/14
 
-
 
-
For Sequencing:
 
-
 
-
1) 10 uL plasmid in each PCR tube (2 tubes)
 
-
 
-
2) 5 uL 5 mM FWD primer into 1 tube (labeled SL01)
 
-
 
-
5 uL 5 mM REV primer in 2nd tube (labeled SL02)
 
-
 
-
Add up how big PSB1C3  (2K) and VPS75 (1K) - those together give a DNA size of 3K
 
-
 
-
-make at least 50uL of each primer for the 5mM
 
-
 
-
 
-
</pre>
 
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Latest revision as of 00:46, 18 October 2014

Cooper Union 2014 iGEM

6/3/14

(Nolana)
  • Researched genes that affect telomere length (lengthening or shortening).
  • Possible genes to be used for knockout: HSP104 (long), MAK31 (long), VPS75 (short), SMI1 (short).
  • Relevant lit: PNAS_Askree

For tomorrow: see if yeast plasmids in lab can be used for programmable kill switch project. Design primers for gene deletion protocol.

6/4/14

(Nolana)
  • Designed primers for yeast genes (TLC1, RAD52, HSP104, VPS75, MAK31, SMI1).
  • Checked plasmids to be ordered for knockout cassettes (pFA6a-kanMX6, pFA6a-TRP1, pAG25).
  • Transformed DH5α with 6 different BioBrick plasmids (pSB1A3, pSB1C3, pSB1K3, pSB1T3, pSB2K3), two BioBrick RBS (B0030, B0034), and a BioBrick double terminator (B0015); left all 8 to grow overnight.

For tomorrow: check for cell growth on plates and further grow any colonies that form.

6/5/14

(Nolana)
  • Plates were checked; colonies were growing on all of them.
  • Picked 4 genes to order primer oligos for (RAD52, EST4, MAK31, VPS75).
  • Streaked plates with old yeast strains.

For Monday (I won't be here tomorrow): check yeast plates for colonies

6/9/14

(Nolana)
  • Checked yeast plates -- all plates grew colonies.
  • Since EST4 knocked out in conjunction with RAD52 kills the yeast, we decided to use EST1 instead of EST4 in the gene deletion for the kill switch project.
  • Poured plates -- 3 bottles of amp (100ug/mL). We used 250 μL of 100 mg/mL stock concentration of Ampicillin.
  • Poured two 0.8% agarose gels, both about 60 mL in each.
  • Helped set up Restriction Digest Reaction with De novo group (used General Restriction Enzyme Digest protocol): 3 μL buffer, 3 μL BSA, DNA, H2O, and Xho1/Xba1 enzyme.
For tomorrow: design check primers for knockout cassettes (programmable kill switch project)

6/10/14

(Nolana)

Designed check primers to be used to verify gene deletion -- used oligo JM42 (3' tag sequence of sense orientation deletion primer with homology to MX4 cassette) for reverse primer, and 500 bases upstream of each gene (RAD52, EST1, MAK31, VPS75) for forward primer.

For tomorrow: Design amplifying primers for kill switch project.

6/11/14

(Nolana)
  • Worked with Devora to find the primer sequences for amplifying the VPS75, RAD52, MAK31, EST1; added BioBrick prefixes and suffixes.
  • Checked all of the different primers and sequences that we ordered to check for forbidden restriction sites: there is one restriction site in KanMX, one in LEU2, and 3 forbidden restriction sites in TRP1; these will need to undergo PCR mutagenesis in order to remove the restriction sites.
  • made YPD plates: (meant to make three 250mL bottles of media, but ended up making one 500mL bottle)
bacto-yeast extract (1%) 5 g
bacto-peptone (2%)10 g
glucose (2%)25 mL
bacto-agar (2%)10 g
distilled H2O500 mL

For tomorrow: make more YPD plates!

6/12/14

(Nolana)

Made three 250mL bottles of Synthetic Complete (SC) and Dropout Media for selectable YPD plates (1 without leucine, 1 without tryptophan, 1 without leucine+tryptophan):
bacto-yeast nitrogen base1.675 g
glucose (2%)12.5 mL
bacto-agar (2%)5 g
dropout mix (0.2%)0.5 g
distilled H2O232 mL

Nitrogen base was without amino acids.
Dropout mix was without histidine, leucine, tryptophan, uracil.

Constituents to add to media as needed:
  • 2.5 mL leucine
  • 0.5 mL histidine
  • 0.5 mL tryptophan
  • 2.5 mL uracil

6/13/14

(Nolana)
  • Checked if plasmids in the freezer can be used in kill switch project (they can). We have pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP.
  • Streaked out plates of pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP, put them in 37 degrees incubator to grow.
  • Made glucose 40% with 200g dextrose and distilled water to make 500mL of solution (two 250mL bottles).
  • Made clonat plates: regular YPD plates+clonat
  • Tried to shift primers for gene deletion protocol because of forbidden restriction sites.

6/16/14

(Nolana)
  • Researched linearizing the genome for E. coli; found that the method described in EMBO_Cui may not be ideal for the kill switch project.
  • Helped De novo group start their double restriction digest.
  • Discussed expanding upon yeast system to make it so that the yeast strains programmed with the kill switch cannot mate with wild-type yeast strains.
  • Inoculated the cultures of pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP and left them growing overnight in LB broth with Amp antibiotic.
For tomorrow: Isolate pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP plasmids, read into yeast background papers.

6/17/14

(Nolana)
  • Checked the cells grown overnight; confirmed the correct plasmids had been grown (pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP)
  • Prepared 1mL miniculture of equal part cells and a 60% glycerol stock for each sample to be stored in the -80C freezer.
  • miniprepped the rest of the overnight cultures (2 samples of each plasmid), following the Miniprep Protocol with some exceptions. The 5mL of overnight culture was centrifuged at 3900rpm for 10 minutes for the first step of preparing the cell lysate. For the second step of eluting the DNA, 50μl of preheated TE buffer was added to the column instead of the stated 75μl.
  • After the plasmids were isolated, the concentration of each sample was measured using the nanodrop, then stored at -20°C.
  • Helped Dionne nanodrop her samples.

Nanodrop results:
pFA6a-kanMX6-PGAL1-GFP
601.4 ng/μl
725.8 ng/μl
pFA6a-GFP(S65T)-TRP1
364.9 ng/μl
438.2 ng/μl

For tomorrow: go over yeast background papers to find yeast mating gene for deletion.

6/18/14

(Nolana)
  • Plasmids and primers arrived today (yay!)
  • Streaked out plasmids onto Amp plates (pAG25, pFA6a-LEU2MX6, pFA6a-TRP1)
  • Reconstituted primers and made 100x umol stocks of primers with TE buffer
  • Worked with Devora to label and dilute all of the 100 uM conc. of the primers; dilution was 1:10 so the diluted primers should be a 10 umolar concentration (did 10 uL resuspended primer with 90 uL ddH2O).

  • List of Primers:
    EST1 deletion (forward and reverse)
    RAD52 deletion (forward and reverse)
    MAK31 deletion (forward and reverse)
    VPS75 deletion (forward and reverse)
    EST1 BioBrick (forward and reverse)
    RAD52 BioBrick (forward and reverse)
    De Novo group: TdT (forward and reverse)
    De Novo group: PolyA (forward and reverse)

  • Colony PCR amplified LEU2, TRPI, and pAG25 (we got this by stabbing the colony within the ring in the glass bottles that were ordered and swirling that into 200 uL of ddH2O water) and for each we did 2 sets of PCR; 1 with ESTI deletion primers and the other with RAD52 deletion primers. We did 20 uL of each of the plasmid along with 2.5 uL each of the forward and reverse primers. As a control we ran 20 uL of ddH2O water with 2.5 each of the primers (so a control for both EstI and Rad52). We added an extension time of 2 minutes. We left that to PCR overnight because the machine is heat-regulated so it's fine if it stays in there.

For tomorrow: check PCR

6/19/14

(Nolana)
  • Ran gels of PCR samples with Jaeho on two 0.8% gels, using a 1kb BioLabs ladder. The wells can be read as [ladder, EST1 (E), EST1+TRP1 (ET), EST1+pAG25 (EC), EST1+LEU2 (EL), ladder] for the first gel, and [ladder, RAD52 (R), RAD52 +TRP1 (RT), RAD52 +pAG25 (RC), RAD52 +LEU2 (RL), ladder] for the second gel (see attached images).
  • Checked gels after 30 minutes. Primers were confirmed to be fine, but for both EST1 and RAD52, only the TRP1 amplifiers worked.
  • Left gels to run for another 30 minutes, but there was negligible changes.
  • Troubleshooting:
    template problem: instead of using colony PCR with bacteria, miniprep plasmids first
    PCR conditions: maybe use extension time of 3 minutes instead of 2; maybe lower self annealing temperature from 55 to 52.
    possible contaminants in sample (unlikely because the TRP1 amplifier worked fine)
    check sequences of clonat (pAG25) and LEU2
    Sizes expected on gels:
    EST1: 127 bp
    ET: 1074 bp
    EC: 1358 bp
    EL: 2415 bp
    RAD52: 127 bp
    RT: 1074 bp
    RC: 1358 bp
    RL: 2415 bp
  • Prepared for yeast transformation: made one 250mL bottle of YPD liquid media, colony PCR'ed EST+TRP1, made yeast cultures of W303a and W303alpha.
    YPD liquid media:
    yeast extract (1%)2.5g
    peptone (2%)5g
    glucose (40%)12.5 mL
    distilled H2O237.5 mL
  • Colony PCR:
    took bacteria from pFA6a-TRP1 plasmid bottle and swirled in 200 uL H2O
    added 20 uL TRP1, 2.5 uL of EST1 forward and reverse primers into 4 PCR tubes
    used PCR program 333
  • yeast culture:
    took W303a and W303alpha colonies and added to ~20 mL YPD (2%)
    put samples in shaker (37 degrees, 250 rpm)
    For tomorrow: check PCR, do yeast transformation

6/20/14

(Nolana)
  • Finished another 250mL bottle of liquid YPD media by adding 12.5mL glucose.
  • Worked with Lily and Jaeho to take a look at the yeast cultures we inoculated yesterday (W303a and W303alpha). The W303alpha seemed to be contaminated with bacteria, so we started counting the number of cells per mL of yeast in the W303a culture. We used a hemacytometer to count, and determined that if we used that culture to do a yeast transformation, the yield would be very low (ideal number of cells/mL is 5 million, we had around 2.5 million).
  • We abandoned the W303a culture, deciding to do a new culture of the strain, this time from newer plates (the ones we grew yesterday were taken from old plates).
  • Looked at newer colonies of W303a under a microscope, the yeast on the new plates look healthy.
  • Purified PCR product from yesterday (EST1+TRP1) and separated into two 200 uL samples.
  • After purification, the concentration of each sample was measured using the nanodrop, then stored at -20°C.
    Nanodrop results:
    EST1+TRP1(1): 81.4 ng/uL
    EST1+TRP1(2): 77.9 ng/uL
For tomorrow: yeast transformation (for real this time)

6/21/14

(Nolana)
  • Looked at newly inoculated yeast cells (W303a, W303alpha) under microscope. The cells were were round and budding, meaning they were healthy and not contaminated.
  • Worked with Jaeho and Lily to count cells. The original yeast cultures had too many cells to count, so we used a 110uL 1:10 dilution of W303alpha and a 100uL 1:100 dilution of W303a.
    Average number of cells:
    W303a: 1,355,000 cells/mL
    W303alpha: 2,020,500 cells/mL
  • Calculated ratios of YPD and culture to make a cell density of 5x106 cells/mL.
  • Inoculated cultures with YPD and put in shaker at 3pm.
    W303a: 10.25mL culture + 14.7mL YPD = 25 mL total
    W303alpha: 9.9mL culture + 4mL YPD = 13.9mL total
    Note: total should have been 25mL, but we thought we did not have enough culture. But actually, we did the math wrong and had to redo the inoculation, finally putting the cultures into the shaker at 5pm, to be checked at 7:30.
    W303a: 6.5x107 cells/mL ----> 2.5mL culture + 25mL YPD = 27.5 mL total
    W303alpha: 4.5x107 cells/mL ----> 2.5mL culture + 22.5mL YPD = 25mL total
  • Yeast cells were ready at 8:45pm, with cell density ~2x10^7
  • Followed Small-scale LiAc Yeast Transformation Procedure up to step 21, where Jae and I plated the yeast (which had EST1+TRP1 added to them) on TRP- plates, along with two negative controls (W303a and W303alpha without EST1+TRP1). The plates were left in the 30 degree incubator to sit for 2-3 days.

6/23/14

(Nolana)
  • Poured LB Amp plates with Wilfrido because the lab was running out.
  • Made two 0.8% gels for Shoshana's experiment.
  • Made a 6% gel for the De Novo group's CleanAmp TdT experiment which will be run tomorrow.

For tomorrow: check yeast selective plates and continue transformation

6/24/14

(Nolana)
  • Checked yeast selective plates: there were ~4 colonies per plate, but that was including the negative controls, which should not have any colonies (possible mutation in yeast strain?)
  • Worked with Lily to streak out plates for each colony (4 W303a +TRP1 plates, 4 W303a neg. con. plates, 3 W303alpha+TRP1 plates, 4 W303 neg. con. plates), and put all 15 plates in 30 degree incubator. These plates were split into quadrants, where each day ~12:30pm, we will check the colony growth and restreak in the next quadrant. Each quadrant, to be checked daily, goes through ~20 divisions. Hopefully we will see the growth of the colonies fade and come back, following the growth curve of an EST1 knockout.
  • Poured YPD plates (three 250mL bottles)
  • Colony PCR'ed EST1+LEU2 and RAD52+LEU2: what we changed from the last PCR was the annealing temperature to 54 degrees instead of 55, and the extension time from 2 minutes to 3 minutes, using PCR program 333.
  • Inoculated plasmids for tomorrow's miniprep (pAG25, pFA6a-TRP1, pFA6a-LEU2MX6, pFA6a-GFP(S65T)-TRP1 and pFA6a-kanMX6-PGAL1-GFP).

For tomorrow: miniprep plasmids, check yeast TRP-selective plates

6/25/14

(Nolana)
  • Worked with Jaeho to miniprep plasmids (pAG25, pFA6a-TRP1, pFA6a-LEU2MX6)
  • Ran gel of PCR samples (EST1+LEU2 and RAD52+LEU2) on a 0.8% gel. There were no results. Need to check if primer sequences are correct.
  • Nanodropped plasmids from miniprep:
    pAG25 (clonat): 563.7 ng/uL
    pFA6a-TRP1: 455.7 ng/uL
    pFA6a-LEU2MX6: 799.7 ng/uL
  • Checked why PCR gel didn't work: we looked at the primer sequences but there was no problem.
  • We made a 1:1000 dilution of each plasmid (pAG25, pFA6a-TRP1, pFA6a-LEU2MX6), then ran another PCR, this time with the purified plasmids from the miniprep.
    5 uL plasmid
    15 uL H2O
    2.5 uL each of the EST1 deletion primers (forward and reverse)
    PCR conditions were the same as last time, program 333.

For tomorrow: check PCR and run a gel; check on yeast selective plates.

6/26/14

(Jae Ho)
PCR Check Done, Gel run.
2-3 kbp results for EST1+LEU2, no results on other. Possibly contaminated template of Clonet.
Digest and run gel of clonet to check if it is contaminated etc
Yeast cultures are struck and photos taken.


For later: Digest/Gel Clonet, make more YPD plates (20 more)


(Nolana)
  • made YPD plates with Lily
  • looked up enzymes and buffer for clonat double digest: we will use the enzyme sites SacI and HindIII, and the NEB Cutsmart buffer

For Monday: run digest

6/30/14

(Nolana)
  • Looked at yeast plates -- not very conclusive
  • Ran clonat double digest:
    Cutsmart buffer2 uL
    10x BSA2 uL
    pAG251 uL
    ddH2O13 uL
    SacI1 uL
    BamHI-HF1 uL
    Total Volume: 20 uL
  • Designed BioBrick primer for EST2 (for yeast strains Professor Medvedik brought back from Boston)
  • Streaked 5 YPD plates with yeast strains and put them in 30 degree incubator: W303alpha, 1300, 1294, 1296, 1297
  • Helped Wilfrido make two 0.8% gels, and two 1% gels
  • Ran a 0.8% gel. Wells: 1. Versa Ladder ; 2. digested clonat ; 3. undigested clonat ; 4-7. Shoshana's samples
  • Gel results: the SacI cut at 43bp, and the BamHI-HF at 1280, which gave two pieces of 1237bp and 2467bp, confirmed by the gel. The undigested clonat result also looked good. This confirmed that the plasmid we have is what we want, the pAG25 (clonat). Now, the question is why didn't it work with the deletion primers?
  • Made yeast cultures of W303a, 1880, 1882 for yeast transformation tomorrow

For tomorrow: run PCR of MAK31 and VPS75; yeast transformation

7/1/14

(Nolana)
  • Yeast transformed inoculated overnight cultures of 1880, 1882, and W303a
  • PCR'd 4 samples for yeast deletion cassettes: MAK31+TRP1 (MT), MAK31+LEU2 (ML), VPS75+TRP1 (VL), VPS75+LEU2 (VL)
  • Took photos of yeast plates to check for growth (1294, 1296, 1297, 1300, and W303alpha); restreaked all plates

(Jae Ho)

Yeast Transformation>>Follows Protocol
PCR plasmid purification skipped due to time restraints.
AMT, AVT, 82VL, 80ML Transformations prepared, and plated. w303A, 1882, 1880 Negative control plates also prepared.

For tomorrow: run gel of PCR samples

7/2/14

(Nolana, Jae Ho)
  • restreaked yeast plates from last week (the ones that were likely to be TRP);
    6 Plates restreaked at day 4 after day 1 (faint): W303alpha+TRP1-1, W303alpha negative control, W303alpha+TRP1-3
  • Photos of yeast plates/restreaked: 1300, 1294, 1296,1297, w303alpha
    Due to deletion of EST2, 1294,1296,1297 are fading:dying
  • New transformation done by prof. Medvedik: wrong plates on original transformation
  • Ran gel with yesterday's PCR samples (MT, ML, VT, VL) with one of the De Novo group's pet28+TdT samples. Used VersaLadder.
    Wells: 1. blank ; 2. ladder ; 3. VT ; 4. VL ; 5. MT ; 6. ML ; 7. pET28+TdT
    Sizes expected: 1074 for VT and MT, 2415 VL and ML
  • Results: we had to stain the gel with ethidium bromide because everything was too faint at first.
    VL and ML had approximately 2kb; VT and MT had approximately 1kb --> good results!
    However, there were other bands that showed along with the PCR amplification -- maybe raise temperature to 56 instead of 54.

For tomorrow: run PCR with same samples, but with different temperature

7/3/14

(Jae Ho)
PCR machine not available, unable to do PCR
Restreaked cultures and took photoes
Restreaked successful transformation colonies: Mak31+TRP1/VPS75+TRP1

For later: PCR EST1+LEU2, EST1+TRP1
Out of TRP plates


7/7/14


PCR: EST1+TRP1, EST1+LEU2
Culture preps: W303A, W303alpha, 1300, 1296
New YPD plates made
Plates struck
Gel Run with 1% gel and 1k ladder: Two showed nothing while the third ET showed multiple bands.
Could be contamination in sample/annealing temperature problem (54->56, maybe try 58)

Tomorrow: Transformation

7/8/14

(Nolana)
  • Ran 1% gel of PCR samples ET1, ET2, EL1, ET2. Wells: 2. BioLabs 1kb ladder ; 3. EL1 ; 3. EL2 ; ET1 ; ET2
  • Gel results were faint, so we stained the gel in ethidium bromide for 15 minutes.
    Expected sizes -- ET: 1074 ; EL: 2415.
    Results: the ET sizes matched but the EL did not -- maybe the plasmid template is contaminated;
    miniprep LEU2 plasmid again?
  • Checked and restreaked yeast plates to check for growth
  • Yeast transformation of W303alpha, W303a, 1300, 1296
  • 1296 discarded for transformation
  • Knockout of EST1+TRP1/LEU2 for other strains in progress

For tomorrow: Miniprep TRP, LEU
Check MAK31 and VPS75 knock plates by colony PCR
Make TRP and LEU plates

7/9/14

(Lily)
  • Checked and restruck yeast plates
  • Left culture overnight for miniprep tomorrow (will do!)

(Nolana)
  • Made TRP- and LEU- selective yeast plates
  • helped Dionne run her PCR samples on a 1.5% gel (wells: 1. VersaLadder ; 2-7:(1)-(6) ; 8. (8) )
  • ran PCR overnight (colony PCR for 2 samples each of MAK31::TRP1, MAK31::LEU2, VPS75::TRP1, VPS75::LEU2 and 2 samples each of ET, EL)

For tomorrow: re-miniprep plasmids for pFA6a-TRP1, pFA6a-LEU3MX6;
Run gel for colony PCR samples
Purify PCR samples of knockout cassettes
Check and restreak yeast plates

7/10/14

(Nolana)
  • Miniprepped pFA6a-TRP1 and pFA6a-LEU2MX6 plasmid templates
  • Nanodropped miniprep samples:
    TRP1: 298.4 ng/uL
    LEU2: 163.8 ng/uL
  • Yeast plates were restruck and photos were taken for growth monitoring
  • PCR'ed two samples each of EST1+LEU2, EST1+TRP1 for PCR purification and then yeast transformation tomorrow.
    PCR conditions: program 333, temperature 54, 180 seconds extension time, 30 cycles
  • Ran two 1% gels of yesterday's PCR product:
    gel 1 wells: 1-3: blank ; 4. MT1 ; 5: ML1 ; 6. VT1 ; 7. VL1 ; 8. Biolabs 100bp ladder
    gel 2 wells: 1-3: blank ; 4. MT2 ; 5: ML2 ; 6. VT2 ; 7. VL2 ; 8. Biolabs 100bp ladder
  • Inoculated yeast strains in YPD for overnight culture for transformation

For tomorrow: purify PCR products and the yeast transform strains 1300, W303A, W303alpha

7/11/14

(Jae Ho)
Transformation Not done due to lack of culture: Reculture on Sunday
PCR purification results: near 0 concentration: Redo PCR on Sunday
Gels ran again
gel 1 wells: 1blank ; 2. ladder 3. MT1 ; 4: ML1 ; 5. VT1 ; 6. VL1
gel 2 wells: 1blank ; 2. Ladder 3. MT2 ; 4: ML2 ; 5. VT2 ; 6. VL2
Plates restruck, photos taken

For Monday: Tranformation, PCR purification

7/14/14


PCR machine failure
Yeast plates restruck, photos taken
Overnight cultures of 1300. W303a. W303A remade
Gel run
gel 1 wells: 1blank ; 2. 100 base ladder 3. MT2 ; 4: ML1 ; 5. VT1 ; 6. VL1; 7 versa ladder
gel 2 wells: 1blank ; 2. 100 base ladder 3. MT2 ; 4: ML2 ; 5. VT2 ; 6. VL2 ; 7.versa ladder
Gel 2: the samples ran off so results were unobtainable.

Redoing PCR of EL and ET on the other machine.

Tomorrow: Check PCR (Gel/ purification), Transformation of 1300, W303a, W303A if PCR is successful.

7/15/14

  • Checked gel pictures from last gel run --
  • Expected sizes of gene w/out knockout:
    MAK31: 381 bp
    VPS75: 406 bp
    Expected sizes with knockout:
    MAK31: 285 bp
    VPS75: 275 bp
  • Ran PCR of MT, ML, VT, VL (one regular, one universal sample) on the new OpenPCR machine, program 334:
    Initial Step: Temp 95, Time 300
    Anneal: Temp 56, Time 30
    Extend: Temp 72, Time 30
    Final Step: Temp 72, Time 420
    Final Hold: Temp 4
    Cycles: 30
  • Ran two 1% gels (10uL PCR product, 2 uL 10x loading dye)
    Gel 1 wells: 1. blank ; 2. 100bp ladder ; 3. MT1 ; 4. ML1 ; 5. VT1 ; 6. VL1
    Gel 2 wells: 1. blank ; 2. 100bp ladder ; 3. MT2 ; 4. ML2 ; 5. VT2 ; 6. VL2
  • Gel results: MAK31 and VPS75 did not get deleted from the yeast colonies (no bright bands on gel 2)
  • Ran PCR again with same settings, but with new colonies

For tomorrow: run gel

07/16/14

  • Made four 1% gels and ran them with the following:
    Colony 3: A-D
    Colony 4: E-G
  • Ran gels of all PCR samples for genes without knockouts (samples A-H)
    Gel run
    gel 1.1 wells: 1blank ; 2. 250 base ladder ; 3. (A1) MT1 ; 4: (B1) ML1 ; 5. (C1) VT1 ; 6. (D1) VL1
    gel 1.2 wells: 1blank ; 2. 250 base ladder ; 3. (E1) MT2 ; 4: (F1) ML2 ; 5. (G1) VT2 ; 6. (H1) VL2
  • Ran gels of all PCR samples for genes with universal primers (samples A-H)
    Gel run
    gel 2.1 wells: 1blank ; 2. 250 base ladder 3. (A2) MT1 ; 4: (B2) ML1 ; 5. (C2) VT1 ; 6. (D2) VL1
    gel 2.2 wells: 1blank ; 2. 250 base ladder 3. (E2) MT2 ; 4: (F2) ML2 ; 5. (G2) VT2 ; 6. (H2) VL2
  • Results:
    gels 1.1 and 1.2 all had bands -- this indicates that the genes were not deleted
    gel 2.2 had no bands -- this goes along with the results from gel 1.1 and 1.2
    gel 2.1 had one very bright VT band -- streak out this colony to double check later?

For tomorrow: screen more colonies! If gels still show no deletions, then maybe do yeast transformation on Friday.

7/17/14

  • Colony PCR
    Colony 5: A-D
    Colony 6: E-H
  • Ran gels of all PCR samples for genes without knockouts (A-H 3)
  • Gel run
    gel 1 wells: 1blank ; 2. 250 base ladder ; 3. (A3) MT1 ; 4: (B3) ML1 ; 5. (C3) VT1 ; 6. (D3) VL1
    gel 2 wells: 1blank ; 2. 250 base ladder ; 3. (E3) MT2 ; 4: (F3) ML2 ; 5. (G3) VT2 ; 6. (H3) VL2
  • Ran gels of all PCR samples for genes with universal primers (samples A-H 4)
    Gel run
    gel 3 wells: 1blank ; 2. 250 base ladder 3. (A4) MT1 ; 4: (B4) ML1 ; 5. (C4) VT1 ; 6. (D4) VL1
    gel 4 wells: 1blank ; 2. 250 base ladder 3. (E4) MT2 ; 4: (F4) ML2 ; 5. (G4) VT2 ; 6. (H4) VL2
  • Results:
    bands for VPS75:: TRP1 for colonies 5 and 6 showed. possible knockout
  • Restreaked VPS75:: TRP1 of colonies 3, 5, and 6

For tomorrow: screen more colonies! MAK31 colonies
Check restreaked colonies

7/18/14:

  • Colony PCR'ed MAK31::TRP1 deletion strain. 10 samples: 5 samples from Plate A (A7-A11), 5 samples from Plate B (B1-B5).
    PCR settings: program 334, anneal temp: 56, extension time: 30 sec.
  • Made two 1% agarose gels
  • Ran gels
    gel 1 wells: 1. blank ; 2. Versa ladder ; 3-6. A7-10 ; 7-8. Shoshana and Devora's samples
    gel 2 wells: 1 blank ; 2. Versa ladder ; 3-7. B1-5 ; 8. A11
  • Results: gel 1 had one faint band at A7, we stained the gel in 400 mL H2O and 500 uL ethidium bromide for 15 minutes.
    After staining, the band was still faint. All the Plate B samples on gel 2 had successful knockouts, but we realized the samples were taken from one streaked out colony.
  • Streaked out 2 YPD plates for the MAK31:TRP1 deletion: 1 plate B colony, A7
  • Overnight PCR of Plate B colony to double-check deletion: one sample with universal primer, one sample with gene check primer

For Monday: check the MAK31 colonies and the VPS colonies that were struck yesterday.
Prepare for new transformations for those strains with EST1.

7/21/14

  • Made four 1% agarose gels
  • ran PCR of VT colonies with possible knockouts that were streaked out last week. 6 samples: 2 of each colony (one with universal primer, one with gene check primer): colonies 3, 5, 6 using the OpenPCR program 334.
  • Ran gel of last week's MT samples: 2 samples: one with universal primer, one with gene check primer. Wells: 1. blank ; 2. Versa ladder ; 3. universal ; 4. gene check
  • Results: there were bands for both lanes on the gel, which corresponded to their respective sequence sizes (universal: 275, gene check: 406) -- maybe yeast strain is diploid?
  • Ran gel of VT colonies. Wells: 1. Versa ladder ; 2. 3R ; 3. 5R ; 4. 6R ; 5. 3U ; 6. 5U ; 7. 6U
  • Results: bands were faint, stained gel in 200mL H2O+250uL ethidium bromide. After staining, confirmed that 2 colonies had knockouts (3 and 6)
  • Streaked out three plates of previous W303alpha transformation
  • Streaked out original 1808 colony (pre-transformation)

For tomorrow: make more YPD plates, check MAK31 plates again, prepare for yeast transformation

7/22/14:

  • Made YPD plates
  • restreaked 1880, VPS75:TRP1 colonies 3, 6 for testing UV phenotype
  • Ran overnight PCR samples of EST1+LEU2 for tomorrow (purification and yeast transformation
    Program: PCR for ~1-2kb 54c
    Initial Step: Temp 95, Time 300
    Denaturing: Temp 95, Time 30
    Anneal: Temp 54, Time 30
    Extend: Temp 72, Time 120
    Final Step: Temp 72, Time 420
    Final Hold: Temp 4
    Cycles: 30
  • Prepared overnight cultures of MAK31:TRP1 and VPS75:TRP1 (3, 6)

For tomorrow: yeast transformation, PCR purification, miniprep LEU2

For some later date: make biobrick parts for VPS75 deletion

07/23/14

  • Yeast transformation with EST1 of MAK31:TRP1 and VPS75:TRP1 (3, 6)
  • Put dilution in shaker at 11:07 am
  • PCR purified yesterday's samples (3 samples of EST1::LEU2)
  • Checked MAK31 and VPS75 BioBrick primers for Prof. Medvedik to order
  • Counted cells of MAK31 and VPS75
  • Step 14 of transformation
    MT : EL1
    VT3 : EL2
    VT6 : EL3
  • Streaked out 1880, VPS75:TRP1 (3, 6) on plate.
    Exposed to UV light on low setting for two seconds to confirm VPS75 phenotype (sensitivity to UV light)
  • Inoculate a culture of LEU2 plasmid for miniprep tomorrow

7/24/14

  • Miniprepped TRP and LEU
  • Nanodrop results:
    TRP: 9.9 ng/uL
    LEU: 122.2 ng/uL
  • prepared definitions and big ideas for meeting

7/28/14:

  • Checked transformation plates: nothing grew except for the VPS75 Colony 3 plates, which had grown fungus because of a contamination in the YPD media
  • Colony PCR'ed 3 samples of the first EST1 transformation with the universal primer to check for knockouts (OpenPCR program 334)
  • Replicated 4 plates of 1880 strain+VPS75 knockouts. UV- shocked 3 plates on high: 10 sec, 30 sec, 1 min.
  • Ran 1% gel of samples.
    Wells: 1. blank ; 2. Versa ladder 3. plate 6 ; 4. plate 7 ; 5 plate 8.
    Results: there were no bands on the gel, meaning that there were no knockouts.
    Expected sizes of EST1 knockout:
    with universal primer: 205 bp
    with gene check primer: 500 bp
  • Inoculated cultures for tomorrow's transformation
For tomorrow: PCR EST1 deletion cassettes, purify PCR product, yeast transformation, check UV plates

7/29/14

  • PCR'ed EST1+LEU2 for purification and transformation
  • Put diluted yeast culture in shaker at 11:35am.
  • Purified and nanodropped PCR product
    EL1: 9.2 ng/uL
    EL2: 4.8 ng/uL
    EL3: 2.7 ng/uL
    EL4: 13.6 ng/uL
  • Transformed yeast strains VT3 + EL1, VT6 + EL2, MT7 + EL3, MTB + EL4

For tomorrow: make more LEU- plates

7/30/14

  • Made more LEU- plates (1 bottle of 400 mL)
  • Prepared for tomorrow's presentation
  • Researched assaying protocol (x) (x) (x)
  • Restreaked W303A and W303alpha for assaying on Friday (1:00 pm)

For tomorrow: finish presentation, make more YPD plates, prepare for assay

7/31/14

  • Checked EST1 transformations: no growth on VT6 plate 1, MT7 plate 2, VT3 plate 1. There were non-yeast growths on MT7 plate 1 and VT3 plate 2
  • Restreaked all 5 yeast colonies of VT3 plate 2
  • Chose 2 colonies each for colony PCR: MTB plate 1, MTB plate 2, MT7 plate 1, VT6 plate 2
  • Instead of using PCR tubes with beads, we used a standard PCR reaction:
    Master Mix1x9x
    10x ThermoPol Buffer2.5 uL22.5 uL
    Primers (Forward & Reverse)5 uL45 uL
    10mM dNTP0.25 uL2.25 uL
    Template5 uL
    Taq DNA Polymerase0.5 uL4.5 uL
    ddH2O11.75 uL105.75
    Total25 uL180
  • Poured YPD plates (two 250mL bottles)
  • Made four 1% agarose gels
  • Ran gels of PCR samples.
    Gel 1 Wells: 1. blank ; 2. 250bp ladder ; 3. MTB1(1) ; 4. MTB1(2) ; 5. MTB2(1) ; 6. MTB2(2).
    Gel 2 Wells: 1. Blank ; 2. 250bp ladder ; 3. MT71(1) ; 4. MT71(2) ; 5. VT62(1) ; 6. VT62(2)
    Gel Results
    we used too much ladder (wrong concentration).
    There were very faint bands -- maybe redo PCR with raised temperature.
    There were bright bands outside the ladder.
  • Put 6mL inoculations of 1294, 1296, 1297, W303A, W303alpha into roller

For tomorrow: count yeast cells

8/1/14

  • Checked yeast cells in roller
  • counted cells with hemacytometer
    W303alpha: 1.31x10^8 cells/mL
    W303A: 1.4x10^8 cells/mL -- 5uL for dilution
    1296: 1.015x10^8 cells/mL -- 5uL for dilution
    1294: 2.805x10^6 cells/mL -- 214uL for dilution
    1297: 3.695x10^6 cells/mL -- Some of these yeast cells were dark and dying: this strain is in the middle of senescencing
  • Diluted W303A, 1296, 1294 in triplicate in 6mL new YPD media to cell density of 10^5

For tomorrow: count cells and re-dilute

8/2/2014


Cell count:
1296
1: 6.4x10^7
2: 1.63x10^8
3: 1.28x10^8
Ave: 1.18x10^8+0.15-0.18
W303A
1: 3.08x10^7
2: 3.72x10^7
3: 2.99x10^7
Ave: 3.26x10^7+0.15-0.09
1294
1: 1.72x10^8
2: 1.63x10^8
3:1.83x10^8
Ave: 1.73x10^8+0.03-0.03
Recultured with 3-1-1: closest to average
1296: 3.906 ul
W303A: 16.26 ul
1294: 29.07 ul

8/3/2014


Cell count:
1296
1: 1.39x10^8
2: 1.39x10^8
3: 1.07x10^8
Ave: 1.28x10^8+0.04-0.07
W303A
1: 1.05x10^8
2: 9.2x10^7
3: 1.25x10^8
Ave: 1.07x10^8+0.06-0.05
1294
1: 1.41x10^8
2: 1.52x10^8
3:1.72x10^8
Ave: 1.55x10^8+0.06-0.05
Recultured with 1-2-1: closest to average
1296: 3.6 ul
W303A: 3.2 ul
1294: 4.8 ul

8/4/14

  • Made one 250mL bottle of liquid YPD media (2%) because of contamination in other bottle
  • Made sporulation media
    potassium acetate (1%)2.5g
    bacto-yeast extract (0.1%)0.25g
    glucose (0.05%)313uL
    H2O250mL
  • Yeast roller stopped overnight, so cell density was comparatively lower than expected for today.
    W303A
    (1) 4.75x10^7 cells/mL -- 10.53uL for dilution
    (2) 4.05x10^7 cells/mL -- 12.35uL for dilution
    (3) 4.35x10^7 cells/mL -- 11.5uL for dilution
    1296
    (1) 4.24x10^6 cells/mL -- 118uL for dilution
    (2) 4.955x10^6 cells/mL -- 101uL for dilution
    (3) 4.15x10^6 cells/mL -- 125uL for dilution
    1294
    (1) 2.715x10^6 cells/mL -- 184uL for dilution
    (2) 2.315x10^6 cells/mL -- 216uL for dilution
    (3) 3.02x10^6 cells/mL -- 165.5uL for dilution
  • The yeast was not rediluted and put back into the roller until 5:40pm.
  • Made plate readings of W303A(1) for OD600
    OD600cell density (cells/mL)
    1.5562x10^8
    1.0371x10^8
    0.7955.17x10^7
    0.6184.78x10^7
    0.4172.51x10^7
    0.2361.535x10^7
    0.1348.35x10^5
    0.1251.05x10^5
  • Colony PCR'ed EST2, Mak31, Vps75 for biobricking

For tomorrow: start new yeast experiment(?), continue yeast experiment (5:40 check), autoclave more glass culture tubes, biobrick parts

8/6/14

  • Gave presentation on project to summer STEM participants.
  • Autoclaved culture tubes
  • Checked roller at ~4:15
    W303A
    (1) 6.20x10^7 cells/mL -- 8.06uL for dilution
    (2) 5.70x10^7 cells/mL -- 8.77uL for dilution
    (3) 7.03x10^7 cells/mL -- 7.1uL for dilution
    1296
    (1) 1.47x10^7 cells/mL -- 34.0uL for dilution
    (2) 1.99x10^7 cells/mL -- 25.1uL for dilution
    (3) 1.74x10^7 cells/mL -- 28.7uL for dilution
    1294
    (1) 2.33x10^7 cells/mL -- 21.5uL for dilution
    (2) 2.41x10^7 cells/mL -- 20.7uL for dilution
    (3) 2.33x10^7 cells/mL -- 21.4uL for dilution
  • Put rollers back in for one more day(to complete 7 days)
  • Put 1305 diploid into sporulation media and restruck two plates of 1305.

Tomorrow: Check rollers at 4:30. PCR biobrick parts. prepare psb1c3 vector for biobricking.

8/7/14

  • PCR of Biobrick Parts: VPS75::TRP1 (colony 6), MAK31:: TRP1 (colony B), EST1 (13000)
    1-2kb program with extension time 60sec and annealing temperature 56 C
    Want 500 ng of the vector: psB1C3: 71.1 ng/ul=>7ul
    Biobrick Digest Procedure
    ECORI Enzyme: 1ul
    Pst1 Enzyme: 1ul, should be added last.
    1 ul of enzyme: 10 ul total-> make 20 total but professor suggested 15 ul total
    1.5ul BSA, 1.5 ul BuffH, 3ul water =>15 ul total
    37 C incubation for 1 hour, 70C innactivation period 15 min.
  • Purify using PCR product procedure
  • Nanodrop and run on gel (expected size of vector: 2040 bp)
    Final concentration of psB1C3: 9.0 ng/uL
  • Gel Run of PCR'd biobrick parts
  • Wells: 1 blank ; 2 Versa Ladder ; 3 EST2 ; 4 MAK31 ; 5 VPS75
    Results
    faint band on 1K for VPS75. Redyed but did not make clearer
  • Put in two samples of 1305 in sporulation media at ~2:30 pm
  • Gel Run of purified psB1c3 vector
    Wells: 1 blank ; 2 Versa Ladder ; 3 psB1c3 purified
    Results
    OD600 of yeast cells
    W303A: 1: 1.161; 2:1.143; 3:1.367
    1294: 1:1.027; 2.1.080; 3:1.079
    1296: 1: 0.987; 2.1.224; 3:1.091
For tomorrow: purify VPS75 biobrick part; double digest VPS75; insert VPS75 part into psB1c3 vector; check cells in sporulation media ; rerun PCR of EST2 and MAK31 with different settings?

8/8/14

  • Redo of Colony PC EST2 and MAK31
    Used Q5 Master Mix with buffers
    12.5ul of 1X Mix
    1.25ul of FWD and RVS Primers
    10 ul of template
    25ul reaction total
  • PCR Settings
    Denaturation: 98C, 30sec
    30Cycles: 98C, 30sec
    55C, 30sec
    72C, 30sec
    Extension Time: 72C, 2min
    Hold at 4C
  • Gel Run of EST2 and MAK31
    Well1: blank, 2: Versa Ladder, 3: MAK31, 4: EST2
    Results
    no bands so PCR did not work
  • Nanodrop malfunction
    concentration of purified VPS75 unchecked:
    double digest VPS75 and insertion of VPS75 part into psB1c3 vector not operated
  • Made graph of yeast growth curve (with changed OD600 equation)

For monday: New yeast cycle, check Spo, double digest VPS75; insert VPS75 part into psB1c3 vector;

8/11/14

  • Sporulation media culture
    8/6 culture contaminated
    8/7 cultured for 4 days showed clustering
    1000x KANMX selection
    2.25 ml sterile PBS
    G418 disulfate salt
    filter sterilized and refrigerated
  • 1305 selection plates: RAD52:LEU2//EST2:KANMX//SGS1:HIS3
  • Haploid seletion
  • zymolyase breaks down membrane==>cultured on YPD plates. then replicated onto LEU-, KANMX, HIS3-
  • double selection on LEU, KANMX plates
  • 200ul zymolyase storage buffer to zymolyase 1000U
  • VPS75 purification check: 12.2 ng/ul
  • Made 3 plates each of W303A/alpha with 35 cells/mL W303A/alpha 350 cells/mL

Tomorrow: double digest VPS75 insert, biobrick transformation, replicate spo plates, screen EST1+VPS75/MAK31 colonies for double knockouts.

For future: generate growth curve for double selected spo plates (EST2+RAD52) and EST1+VPS/MAK

8/12/14

  • double digested VPS75 insert
    45 uL VPS75 (12.2 ng.uL)
    1.5 uL each ECOR1 and PST1
    6 uL buffer H
    6 uL 10x BSA
    60 uL total
    Incubated for 1 hour (no heat inactivation)
  • Purified VPS75 insert (Final concentration: 1.1 ng/uL)
    Need to redo PCR. Next time PCR, dilute to 50 uL, then directly double digest
  • Inoculated 1296, W303alpha, VPS75::TRP1 colony 6, MAK31::TRP1 colony B for new curves. Put in roller at 2:45 pm
  • colony PCR screened for double knockouts (EST1 and VPS/MAK)
    A = VPS75::TRP1 ; EST1::LEU2 "Colony 6" Plate 2 (strain 1880)
    B = MAK31::TRP1 ; EST1::LEU2 "Plate B" Plate 2 (strain 1880)
    C = MAK31::TRP1 ; EST1:: LEU2 "Plate B" Plate 1 (strain 1880)
    D = MAK31::TRP1 ; EST1:: LEU2 "Colony 7" Plate 1 (strain 1880)
    E1-E5 = MAK31::TRP1 ; EST1::LEU2 "Colony 3" Plate 2 (strain 1880)
  • PCR conditions:
    Initial: 95 C, 300 sec
    40 cycles
    Denature: 95 C, 30 sec
    Anneal: 56 C, 30 sec
    Extension: 72 C, 60 sec
    Final: 72 C, 420 sec
    Hold: 4 C
  • Made 4 1% gels
    Ran gels of colony PCR check for EST1
    Gel 1 Wells: 1 Versa Ladder ; 2 A3 ; 3 A4 ; 4 B3 ; 5 B4 ; 6 C3 ; 7 C4
    Gel 2 Wells: 1 Versa Ladder ; 2 D3 ; 3 D4 ; 4 E1 ; 5 E2 ; 6 E3 ; 7 E4 ; 8 E5
    Gel Results
  • Checked sporulated yeast cells, dissolved membrane with 10 uL zymolyase (30 minute wait)
  • inoculated two tubes of 1305 in Spo media

For tomorrow: Make YPD plates, redo BioBrick of VPS75 (do not purify PCR product), look at primers of EST1 and MAK31 (BioBrick), check sporulated yeast plates (replicate if there is growth), check rollers at 2:45

8/13/14

  • YPD plates made
  • VPS75 colony PCR: From colony 6, 2 samples for biobricking
    Initial: 95 C, 300 sec
    30 cycles
    Denature: 95 C, 30 sec
    Anneal: 56 C, 30 sec
    Extension: 72 C, 60 sec
    Final: 72 C, 120sec
    Hold: 4 C
  • use 1300 for EST2 biobrick PCR (post senescent)
  • made 2 250 mL bottles for YPD plates
  • Ran gel of VPS75 biobrick (~1K bp expected)
    Gel 1 Wells: 1 Blank ; 2 QuickLoad 1Kb Lab ; 3 colony 6, VPS751 ; 4 VPS75 2 ;
    Results: 1 kB bands
  • PCR of EST2, MAK31 biobrick: EXT time 90 sec, Final step: 420 sec
  • yeast growth curve check: OD600 readings
    OD600Cell DensityDilution Volume
    YPD Blank0.112
    EST2 neat0.616.1*10E78 uL
    VPS75 neat1.3451.345*10E84 uL
    MAK31 neat1.3181.318*10E84 uL
    W303A neat1.2091.209*10E84 uL

    cells diluted to 1*10E5cells/ uL, triplicate samples, put in roller at 3:30PM
  • Nanodrop concentrations
    VPS751 527.0 ng/uL
    VPS752 690.9 ng/uL

For tomorrow: double digest VPS75 insert
Redo PCRs for double knockout screening
Prepare for meeting
Check yeast rollers
Check sporulated yeast plates

8/14/14

  • Double Digest: (done for each VPS75 1 and VPS752)
    Buffer H: 2 uL
    BSA: 2uL
    VPS75: 3.7 uL
    ddH2O: 10.3 uL
    EcoRI: 1uL
    PstI: 1uL
    Incubate at 37C for 60 min
    Heat at 70C for 15 min
  • Checked concentrations, but received negative concentrations... did calculations manually:
    VPS751: 2556.33 ng/20 uL = 127.8 ng/uL
    VPS752: 1950 ng/20 uL = 97.5 ng/uL
  • Stored double digested VPS751 and VPS752 at -20C till further instructions on how to ligate.
  • Ran gel of yesterday's PCR to check biobrick primers
    Wells: 1, blank; 2, versa ladder; 3, E; 4, MB; 5, M7
  • Made four 1% gels
  • colony PCR'ed 13 samples for double knockout (Program 334)
    PCR conditions
    ext. time 30
    anneal temp 56
    final step 420
    cycles 30
  • yeast growth curve check: OD600 readings
    ;OD600Dilution Volume
    YPD Blank0.116
    MAK31 11.2464 uL
    MAK31 21.224 uL
    MAK31 31.0844.6 uL
    EST2 10.17828 uL
    EST2 20.24220.7 uL
    EST2 30.22222.5 uL
    VPS75 11.2194.1 uL
    VPS75 21.1924.2 uL
    VPS75 31.1894.2 uL
    W303A 11.1284.4 uL
    W303A 21.1274.4 uL
    W303A 31.0374.8 uL

    put yeast cultures in roller @ 4:00PM
  • Duplicated 3 plates of sporulated cells onto
    Leu-/KANMX (Rad52::Leu2 and EST2::KANMX)
    Leu- (RAD52::LEU2)
    KANMX (EST2::KANMX)
    HIS- (SGS1::HIS3)
  • Updated wiki outreach page

8/15/14

  • Observed 1 cell with RAD52 and EST2 knocked out as well as 1 cell with EST2 and SGS1 knocked out
  • the Leu-/KANMX plate may be missing the EST2::KANMX since those plates look identical to the Leu- Plates
    Gel 1: 1, Versa Ladder; 2, A3; 3, A4; 4, B3; 5, B4; 6, C3; 7, C4; 8, E3;
    Gel 2: 1, Versa Ladder; 2, D3; 3, D5; 4, E1; 5, E2; 6, E3; 7, E4; 8, E5;

    The E3 in Gel 2 looked faint so we ran E3 on gel 1 as well.
  • Found protocol to isolate DNA in yeast cells
    RAD52 EST2 Knockouts
    innoculate culture (5 mL for curve)
    use 1 mL of saturated culture
    mix above with 1 mL of 60% glycerol
    vortex (label clearly)
    store at -80 C
    RAD52 EST2 Growth Curve
    Take 1/2 of colony
    innoculate in 5 mL YPD
    triplicate samples tomorrow
  • Make more sporulated yeast cell plates (~500 cells)
    Zymolased with 10 uL
    Made 6 plates with ~450 cells
  • Yeast Growth Curves
    OD600Dilution
    YPD0.146
    W303A 11.0744.6 uL
    W303A 20.9375.3 uL
    W303A 30.9945 uL
    MAK31 11.0354.8 uL
    MAK32 21.254 uL
    MAK32 31.254 uL
    VPS 11.1844.2 uL
    VPS 21.1874.2 uL
    VPS 31.0444.8 uL
    EST2 10.7626.6 uL
    EST2 21.3213.8 uL
    EST2 30.46910.7 uL
  • Also made a RAD52 & EST2 tube and put in roller at ~5:30PM

8/16/14

Yeast Growth Curves
OD600Dilution
YPD0.134
W303A 10.6028uL
W303A 20.5928 uL
W303A 30.5558 uL
MAK31 11.0325 uL
MAK32 20.925 uL
MAK32 31.0085 uL
VPS 10.527 uL
VPS 20.6757 uL
VPS 30.7197 uL
EST2 10.4977.5 uL
EST2 20.6817.5 uL
EST2 30.5827.5 uL
RAD52&EST20.8366 uL

Dilutions
W303A: ~8uL-> 1
VPS75: ~7uL -> 3
EST2: ~7.5 uL -> 3
MAK31: ~5uL -> 1
RAD52: ~6uL

Sporulated 2 & 3 were empty and trashed

8/17/14

Yeast Growth Curves
OD600Dilution
YPD0.117
W303A 10.677.5 uL
W303A 20.6437.8 uL
W303A 30.6627.6 uL
MAK31 11.1844.2 uL
MAK32 21.2074.1 uL
MAK32 31.1714.3 uL
VPS 10.7446.7 uL
VPS 20.7057.1 uL
VPS 30.7246.9 uL
EST2 10.7067.1 uL
EST2 21.513.3 uL
EST2 31.293.9 uL
RAD52&EST20.1216 uL
RAD52&EST20.116
RAD52&EST20.107
  • Incubated another RAD52 & EST2 in 5 mL YPD
  • Put in roller @ 5:30PM
  • For tomorrow: freeze saturated RAD52&EST2, make 60% glycerol

8/18/14

Yeast Growth Curves
OD600Dilution
W303A 10.2321.7
W303A 20.29816.8
W303A 30.22522.2
MAK31 11.1964.2
MAK32 21.1944.2
MAK32 31.2124.1
VPS75 11.1154.5
VPS75 21.1155
VPS75 31.0844.7
EST2 10.5189.7
EST2 20.6787.4
EST2 30.5289.5
RAD52&EST20.137
RAD52&EST21.0184.5
RAD52&EST20.49810

  • Put in roller at 5:00pm
  • Wildtype culture samples were thrown out because of evidence of contamination
  • Ran gel for biobrick primers. Yielded results of ~200bp when the expected result was ~1000bp
  • Made triplicate samples of RAD52 EST2 inoculated yesterday (8/17). Also froze -80 C with 1 mL yeast, 1mL 60% glycerol (2 samples).

8/19/14

  • Zymolased sporulated samples w/ 15 uL @ 1:05 PM - 2 tubes - followed protocol from 8/11
  • Sporulated samples turned out to be contaminated, and were thrown out
  • Double Digested VPS75 1 and VPS 75 2
    Incubated @ 1:13PM 37 C for 60 min
    Heated @ 2:14PM 70C for 15 min
    followed same protocol for 8/14 double digest, total volume 20 uL
  • Purified VPS75 double digests (1 and 2)
    Nanodrop results
    (1): 5.6 ng/uL
    (2): 4.2 ng/uL
  • Made two sporulation tubes and put in roller (Check in 5 days)
    Used 5 mL sporulation media
    1305 (1) and 1305 (2)
  • Yeast Growth Curves
    OD600Dilution
    YPD (blank)0.119
    MAK31 11.1664.3 uL
    MAK32 21.194.2 uL
    MAK32 31.1764.3 uL
    VPS75 11.1374.4 uL
    VPS75 21.134.4 uL
    VPS75 31.2064.1 uL
    EST2 11.2014.2 uL
    EST2 20.578.8 uL
    EST2 30.5738.7 uL
    RAD52&EST20.114
    RAD52&EST20.121
    RAD52&EST20.117
    RAD52 EST2 (set 2)0.111
    RAD52 EST2 (2)0.5469.2 uL
    RAD52 EST2 (3)0.114
  • Need to start generating curves for RAD52/EST2 as well as update graphs and std. dev./error bars

8/20/14

  • Double-knockout Screening: A5, A6, B5, B6, C5, C6, D5, D6, E1, E2, E3, E4, E5. Used same plates as before, choose new colonies for plates A, B, C, and D
  • swirled colonies each in 200 uL ddH2O tubes
  • PCR tubes: 20 uL ddH2O+colonies, 2.5 uL reverse and forward primers (EST1)rs
  • Ligation notes:
  • Team page wiki ideas:
  • Yeast Growth Curves
    OD600Dilution
    YPD (blank)0.125
    MAK31 11.2743.9 uL
    MAK32 21.2274.1 uL
    MAK32 31.2594.0 uL
    VPS75 11.2414.0 uL
    VPS75 21.2134.1 uL
    VPS75 31.2064.1 uL
    EST2 11.4763.4 uL
    EST2 21.1214.5 uL
    EST2 30.6098.2 uL
    RAD52&EST20.107
    RAD52&EST20.458
    RAD52&EST20.109
    RAD52 EST2 (set 2)0.129
    RAD52 EST2 (2)0.142
    RAD52 EST2 (3)0.143

8/21/14:

  • Made two 1% gels
  • Ran gels of double knockout colony PCR screenings
    Gel 1: VersaLadder, A5, A6, B5, B6, C5, C6
    Gel 2: VersaLadder, D5, D6, E1, E2, E3, E4, E5
  • yeast growth curve
    OD600Dilution
    MAK31 11.1474.4
    MAK32 21.1584.3
    MAK32 31.1874.2
    VPS75 11.154.3
    VPS75 21.1524.3
    VPS75 31.1614.3
    EST2 11.2654
    EST2 20.65177
    EST2 30.5768.7
    RAD52&EST20.101
    RAD52&EST20.47810.3
    RAD52&EST21.3933.6
    RAD52 EST2 (set 2)1.4
    RAD52 EST2 (2)1.5628.9
    RAD52 EST2 (3)1.116

8/22/14


Yeast Growth Curve
OD600Dilution
YPD (blank)0.144
MAK31 11.2324.1
MAK32 21.194.2
MAK32 31.1974.2
VPS75 11.1544.6
VPS75 21.1414.4
VPS75 31.1534.3
EST2 11.2743.9
EST2 20.6567.6
EST2 30.6667.5
RAD52&EST20.105
RAD52&EST21.214.1
RAD52&EST21.6113.1
RAD52 EST2 (set 2)0.185
RAD52 EST2 (2)0.77.1
RAD52 EST2 (3)0.23321.5

8/25/14


  • Dephysophorylated vector DNA
  • Ligation calculator 3:1
  • Not Dephosphorylated
    45 ng insert DNA - 9 uL (5.6 ng/uL)
    30 ng vector DNA - 3 uL
    10X T4 DNA ligase buffer - 2 uL
    water - 5 uL
    T4 DNA ligase - 1 uL
    Total Volume: 20 uL
  • Dephosphorylated
    45 ng insert DNA - 9 uL (5.6 ng/uL)
    30 ng vector DNA - 10 uL
    10x T4 DNA ligase buffer - 2.5 uL
    water - 2.5 uL
    T4 DNA ligase - 1.25 uL
    Total Volume: 25 uL
  • 15 uL zymolase w sporulated cells (protocol on 8/11/14)
  • Counted cells and averaged for 444 in sample 2 and 560 in sample 1
  • Made 3 plates of each sample
  • RAD52/EST2 cells from the last growth curve were contaminated with bacteria
  • Made 2 bottles of 250 mL YPD
  • 1 bottle for YPD plates
    LB plates:
    LB - Lennox Broth - 4g
    agar 1.5% - 3g (in 200 mL)
    Autoclave -> don't add things when it's too hot
    Add Chlor (1000x) - 200 uL​
    40% Glucose
    multiply 40% by mL to get grams of dextrose
    used 120g dextrose and 300 mL
    stirred & heated glucose in 100 mL dH20 then added more dH20 till the desired level of 300mL
  • restreaked MATA and MATα for mating type checks of 1294, 1296, 1300, 1880 (VT6, MTB, MT7)

For tomorrow/things to do
  • if start yeast curves, start them at noon
  • finish up ligation
  • check on plates in incubator - maybe redo kan- plate w/ ypd if we do replicate yeast
  • double knockout screening -check other colonies/re-do
  • biobrick primers
  • yeast dna protocol - redo w/ biobrick primers
  • innoculate RAD52/EST2 colony at noon
  • put ligations in -20C in morning

  • 8/26/14

    • ligations put in -20 C
    • restreaked MAK31::TRP1 colony 7
    • inoculated and put in roller at noon:
      1880
      VPS75::TRP1 colony 6
      EST2 1296
      RAD52/EST2
    • yeast genomic DNA extraction protocol for biobricking
      nanodrop results
      EST2 (1300) : 41/6 ng/uL
      MAK31 (MT7) : 14.4 ng/uL
      VPS75 (VT6) : 26.0 ng/uL
    • ran PCR of EST2, MAK31, VPS75 for biobricking
      30 cycles
      95 C, 30 sec
      56 C, 30 sec
      72 C, 90 sec
      72 C, 120 sec
    • Made 2 250 mL bottles for YPD plates
    • 1 250 mL bottle for KANMX plates (250 uL G418)

    For tomorrow
  • Run gels of biobrick inserts
  • if they worked, double digest, purify
  • transform along with VPS75
  • Select more sporulated cells
  • Check cells growing on sporulated plates
  • Growth curve at noon (make triplicate samples)
  • check mating type of EST2/RAD52, 1294, 1296, 1300, 1880 (VT6, MTB, MT7)
  • mate EST2 and MAK31/VPS75 for sporulation

  • Research
  • gibson assembly (isothermal) for "super plasmid"
  • yeast operons ( for EST2, RAD52 )
  • prerecombinase done in iGEM already?
  • biobuilder.org -> look for beta carotene yeast, possibly use as a measure to characterize growth curves, senescence vs nonsenecence
  • thin layer chromatography (TLC)
  • gas chromatography
  • check iGEM deadlines

  • 8/27/14


    • Zymolased (2) and (3) sporulation samples with 15 uL at 11:30 AM, wait 30 min
      (2) after diluting 2 times 1/10, counted an average of 88 cells (with 87 and 95)
      (3) after diluting 2 times 1/10, counted on average 82 cells (with 80 and 84)
    • Made 2 1% gels
      Ran gel of biobricking PCR product
      Wells: 1 blank ; 2 blank ; 3 Versa Ladder ; 4 EST2 ; 5 MAK31 ; 6 VPS75
      Gel Results
      EST2 - band on 2K bp
      MAK31 - band on 600 bp
      VPS75 -band on 1K bp
      1K expected...
    • checked mating types of 1880, VT6, MTB, MT7, EST2/RAD52
    • Made 1 250 mL bottle for SD plates (for mating selection) (no dropout mix added
      1 bottle KAN/LEU
      1 bottle HIS

    8/29/2014


    • Note: 1880 is DSY strain
    • 2 250 ml LEU- plates made
    • VPS75 BB transformation check
      1 white colony on 1 dephosphorylcoted plate
      dense reds on not plates==> restreaked white colonies on gridded chlor- plates
    • Mating type plate of EST2/RAD52, 1880, VT6, MTB,MT7
      =>MATA:1880 MTB,VT6,EST2,RAD52
      MT7 grew on both sides (possible diploid)
    • replicated 1294 1296 1300 on SD selection plate
    • replicated sporulated cells
      Stopped growth curve for weekend
      Cell densities in notebook

    9/4/2014


    • mini prepped VPS75 BB and stored in -20C (followed protocol on P14)
    • prof Medvedik innoculated the VPS75 two nights ago and re-innoculated yesterday -> put in fridge yesterday for today
    • nanodrop: 86.5 ng/uL

    9/5/2014


    For Sequencing
  • 10 uL plasmid in each PCR tube (2 tubes)
  • 5 uL 5 mM FWD primer into 1 tube (labeled SL01)
  • 5 uL 5 mM REV primer in 2nd tube (labeled SL02)
  • Add up how big PSB1C3 (2K) and VPS75 (1K) - those together give a DNA size of 3K
  • -make at least 50uL of each primer for the 5mM