Team:SDU-Denmark/Tour51

From 2014.igem.org

(Difference between revisions)
Line 16: Line 16:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>We started our work in the wet lab with a three days lab crash course. We learned basics, as running a PCR, and where we can find everything that is needed for working in the lab. In addition, we talked a lot about the project goals and the way of getting there.  
+
<p>We started our work in the wet lab with a three days lab crash course. We learned basics, as running a PCR, and where we can find everything that is needed for working in the lab. In addition, we talked a lot about the project goals and the way of getting there.</p>
</td>
</td>
Line 24: Line 24:
<tr>
<tr>
<td width="45%"  valign="top">  
<td width="45%"  valign="top">  
-
<p> In the lab: The PCR reactions from yeasterday didn't work, so they were repeated. This time 50 µL PCR reaction were prepared. Gel purification was performed on the PCR products and the final concentration was measured by nanodrop.
+
<p> In the lab: The PCR reactions from yeasterday didn't work, so they were repeated. This time 50 µL PCR reaction were prepared. Gel purification was performed on the PCR products and the final concentration was measured by nanodrop.</p>
-
<li>We digested the products by using restriction enzymes XbaI og SpeI. We detected that the plasmid was only linearized, meaning that only one restriction enzyme/ restriction site was functional.
+
<p>We digested the products by using restriction enzymes XbaI og SpeI. We detected that the plasmid was only linearized, meaning that only one restriction enzyme/ restriction site was functional.</p>
-
<li>We worked on the basics in the iGEM concept. We discussed the definitions of biobrick, basis part, composite part and deviced. We learned the "Standard Assembly Method", it's condition, uses and limitations.  
+
<p>We worked on the basics in the iGEM concept. We discussed the definitions of biobrick, basis part, composite part and deviced. We learned the "Standard Assembly Method", it's condition, uses and limitations.</p>
-
<li>We defined the conditions for our own device and started searching for the necessary parts in the iGEM registry
+
<p>We defined the conditions for our own device and started searching for the necessary parts in the iGEM registry.</p>
</td>
</td>
Line 37: Line 37:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>We digested two plasmid, each with the enzymes XbaI and EcoRI. Unfortunately it didn’t work as expected, as XbaI did not cut. We made some control experiments to check this and concluded that one of the plasmids might miss the E restriction site.  
+
<p>We digested two plasmid, each with the enzymes XbaI and EcoRI. Unfortunately it didn’t work as expected, as XbaI did not cut. We made some control experiments to check this and concluded that one of the plasmids might miss the E restriction site.</p>
-
<p>We also recieved lab safety training
+
<p>We recieved lab safety training.</p>
</td>
</td>
Line 49: Line 49:
<p>Team page and Notebook page added to the wiki. </p>
<p>Team page and Notebook page added to the wiki. </p>
-
<p>Two PCR reactions were made to amplify plasmids from the iGEM 2014 kit. The gel, that was ran afterwards, showed bands in the right length. The bands were cut out and purified.  
+
<p>Two PCR reactions were made to amplify plasmids from the iGEM 2014 kit. The gel, that was ran afterwards, showed bands in the right length. The bands were cut out and purified.</p>
</td>
</td>
Line 68: Line 68:
<p>One bacterial colony from the agar plate from yesterday was transferred to fluid LB media to amplify WT bacteria.  
<p>One bacterial colony from the agar plate from yesterday was transferred to fluid LB media to amplify WT bacteria.  
TSB buffer was made.
TSB buffer was made.
-
A transformation was made.  
+
A transformation was made.</p>
</td>
</td>
Line 79: Line 79:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
The transformation from yesterday has not been successful.  
+
<p>The transformation from yesterday has not been successful.</p>
-
New plates with Ampicilin, Kanamycin and Chloramphenicol were made.  
+
<p>New plates with Ampicilin, Kanamycin and Chloramphenicol were made.</p>
</td>
</td>
Line 89: Line 89:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p> A transformation was made. </p>
+
<p> A transformation was made.</p>
</td>
</td>
Line 97: Line 97:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>The transformation from yesterday has been partly successful. One plate had no colonies. For the transformations that were successful an ON was made. </p>
+
<p>The transformation from yesterday has been partly successful. One plate had no colonies. For the transformations that were successful an ON was made.</p>
<p>The cultures should be prepared for storage at -80°C tomorrow.</p>
<p>The cultures should be prepared for storage at -80°C tomorrow.</p>
</td>
</td>
Line 114: Line 114:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p> The non-successful transformation from Wednesday 25/6 was repeated.  
+
<p>The non-successful transformation from Wednesday 25/6 was repeated.</p>
</td>
</td>
Line 123: Line 123:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>The transformation was partially successful. There were some, but very few, visible colonies on the agar plates. Two overnight cultures were prepared from one colony respectively.  
+
<p>The transformation was partially successful. There were some, but very few, visible colonies on the agar plates. Two overnight cultures were prepared from one colony respectively.</p>
</td>
</td>
Line 143: Line 143:
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Today colony PCR (iGEM2014_SOP0021) was performed on the E. coli MG1655 strains with the plasmids: pSB1A3, pSB1C3, pSB1K3 and J04450 (also known as aza). The results showed that the constructs all had approximately the same weight, just below 1500 bp. This corresponds to the theoretical weight of the constructs, which is 1382 bp.</p>  
+
<p>Today a Colony PCR was performed on the E. coli MG1655 strains with the plasmids: pSB1A3, pSB1C3, pSB1K3 and J04450 (also known as aza). The results showed that the constructs all had approximately the same weight, just below 1500 bp. This corresponds to the theoretical weight of the constructs, which is 1382 bp.</p>  
-
<p>The development of the construct used to produce lacI was commenced. This was done by first running Phusion PCR (igem2014_SOP010) on lacI (BBa_I732100, Template 8A, Plate 3). The PCR product was then analysed on gel-electrophoresis and purified.</p>
+
<p>The development of the construct used to produce lacI was commenced. This was done by first running Phusion PCR on lacI (BBa_I732100, Template 8A, Plate 3). The PCR product was then analysed on gel-electrophoresis and purified.</p>
<p>Transformation was performed on the plasmids pSB1C3 and pSB1K3 as the former transformation was unsuccessful. Furthermore transformation was also performed on the parts BBa_R0010 (lacP promoter) and BBa_E0840 (GFP coding seq.). The transformed E. coli were put on agar plates with antibiotic according to their respective resistance. The plates were placed in the heating cabinet and should be examined for colonies tomorrow.</p>
<p>Transformation was performed on the plasmids pSB1C3 and pSB1K3 as the former transformation was unsuccessful. Furthermore transformation was also performed on the parts BBa_R0010 (lacP promoter) and BBa_E0840 (GFP coding seq.). The transformed E. coli were put on agar plates with antibiotic according to their respective resistance. The plates were placed in the heating cabinet and should be examined for colonies tomorrow.</p>
-
<p>-JJ
+
</tr>
<tr><td colspan="3"> <h5>Wednesday 2/7</h5></td></tr>
<tr><td colspan="3"> <h5>Wednesday 2/7</h5></td></tr>
Line 163: Line 163:
<p>Freezing stocks of E. coli with pSB1C3 and pSB1K3 were stored at -80°C. Each culture were mixed with 50% glycerol</p>
<p>Freezing stocks of E. coli with pSB1C3 and pSB1K3 were stored at -80°C. Each culture were mixed with 50% glycerol</p>
-
<p>Furthermore fast digest on our 3 PCR products were made with XbaI and SpeI
+
<p>Furthermore fast digest on our 3 PCR products were made with XbaI and SpeI.</p>
-
<li>PCR 1 consisted of template 2:2P, primer yellow#5 and yellow#6.</li>
+
-
<li>PCR 2 consisted of template from previous made PCR2 and primers yellow#5 and yellow#7.</li>
+
-
<li>PCR 3 consisted of template 2:24D, primer yellow#8 and yellow#9.</li></p>
+
-
<p>PCR 1 and 3 were ligated and PCR 2 and 3 were ligated. they are stored at 16°C overnight.
+
-
- Anne</p>
+
<p>PCR 1 and 3 were ligated and PCR 2 and 3 were ligated.</p>
 +
 
 +
</tr>
<tr><td colspan="3"> <h5>Thursday 3/7 </h5></td></tr>
<tr><td colspan="3"> <h5>Thursday 3/7 </h5></td></tr>
Line 176: Line 174:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Today the ligated PCR1/3 and PCR2/3 was purified by running them through a gel. The concentration of the purified constructs were measured by nano drop: </p>
+
<p>Today the ligated PCR1/3 and PCR2/3 were purified by running them through a gel. The concentration of the purified constructs were measured by nano drop.</p>
-
<li>PCR1/3 = 2.8 ng/µL</li>
+
<p>In order to create "sticky ends" on PCR1/3 and PCR2/3, the parts were fast digested. Also pSB1C3 was fast digested, so that it could be used as a backbone. The different fast digested parts were gel purified. PCR1/3 and PCR2/3 were then ligated to the backbone (pSB1C3).</p>
-
<li>PCR2/3 = 2.9 ng/µL</li>
+
-
<p>In order to create "sticky ends" on PCR1/3 and PCR2/3, the parts were fast digested. Also pSB1C3 was fast digested, so that it could be used as a backbone. The different fast digested parts were gel purified. PCR1/3 was then ligated to the backbone (pSB1C3) and PCR2/3 was ligated to the backbone (pSB1C3).</p>
+
-
<p>Colony PCR was performed on a colony from the yesterday transformation of the lacP promoter (BBa_R0010) and GFP coding seq. (BBa_E0840). Because the results showed that the sequences consisted of more base pairs than they theoretically should, a new colony PCR was performed on a different colony. The results from the new colony PCR were the same as before, with the weight of GFP just above 1000 bp and the weight of lacP promoter just around 500 bp.</p>
+
<p>Colony PCR was performed on a colony from the transformation from Wednesday 2/7 of the lacP promoter (BBa_R0010) and GFP coding seq. (BBa_E0840). The gel showed bands that were too long, therefore a new colony PCR was performed on a different colony. The results from the new colony PCR were the same as before, with the weight of GFP just above 1000 bp and the weight of lacP promoter just around 500 bp.</p>
-
<p>- Jens Jakob</p>
+
</tr>
<tr><td colspan="3"> <h5>Friday 4/7</h5></td></tr>
<tr><td colspan="3"> <h5>Friday 4/7</h5></td></tr>
Line 190: Line 186:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Today we startet with miniprep on our e. Coli containing lacP promoter (BBa_R0010) and GFP coding seq. (BBa_E0840)</p>
+
<p>A miniprep was performed on the ON containing lacP promoter (BBa_R0010) and GFP coding seq. (BBa_E0840), and a freezing stock was made.</p>
-
<p>A freezing stock was then made from the e. Coli with lacP promotor and with the GFP coding seq.</p>
+
<p>Furthermore a PCR was made on the products from the miniprep. Unfortunatly the PCR didn't work, as the gel didn't show any products.</p>
-
<p>Further more there was made PCR on the products from the miniprep. Unfortunatly the PCR didn't work because the gel didn't show any products.</p>
+
<p>Because the PCR didn't work we found the products from the iGEM kit from 2014 and made a new PCR.</p>
-
<p>Because the PCR didn't work we found the products from the iGEM kit from 2014 and made PCR again.</p>
+
<p>This time the  PCR worked and the products were gel purified and the concentrations meassured with NanoDrop.</p>  
-
<p>This time the  PCR worked and the products were gel purified and we then measured the concentration with nanodrop:
+
-
<li>lacP promoter (BBa_R0010) = 20,1 ng/µL</li>
+
-
<li>GFP coding seq. (BBa_E0840) = 27,9 ng/µL</li>
+
-
</p>
+
</td>
</td>
Line 207: Line 199:
<p>PCR was preformed on LVA less GFP with tet promoter using primers yellow#8 and yellow#9. The PCR was purified using the gel purification SOP.</p>
<p>PCR was preformed on LVA less GFP with tet promoter using primers yellow#8 and yellow#9. The PCR was purified using the gel purification SOP.</p>
<p>A digest was done on PCR products #11 and #12 in an attempt to ligate these. Ligation was done in 30 mins at RT whereupon the ligase was inactivated at 65 °C for 10 mins. Purification of the ligation product was done, diverging from the SOP and resulting in an unusable amount of product.</p>
<p>A digest was done on PCR products #11 and #12 in an attempt to ligate these. Ligation was done in 30 mins at RT whereupon the ligase was inactivated at 65 °C for 10 mins. Purification of the ligation product was done, diverging from the SOP and resulting in an unusable amount of product.</p>
-
<p>- Daniel</p>
+
 
</td>
</td>
Line 216: Line 208:
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
<p>The lacP promoter (BBa_R0010)and GFP coding seq. (BBa_E0840) have been ligated but the concentration was low and therefore we made PCR on the product.</p>
<p>The lacP promoter (BBa_R0010)and GFP coding seq. (BBa_E0840) have been ligated but the concentration was low and therefore we made PCR on the product.</p>
-
<p>The PCR product was run on gel. The band was hard to separate from other bands around the same length (1400bp). We cut the right length out and purified it. Nanodrop was measured to 53,3 ng/µL</p>
+
<p>The PCR product was run on a gel. The band was hard to separate from other bands around the same length (1400bp). We cut out the right length and purified it. Nanodrop was measured. </p>
-
<p>PCR1 (consisting of template 2:2P, primers yellow#5 and yellow#6) and PCR2 (consisting of template 2:2P and primers yellow#5 and yellow#7) has both been cut with SpeI. PCR3 (consisting of template 2:24D and primers yellow#8 and yellow#9) has been cut with Xbai. PCR1 and PCR3 was attempted ligated (for 30 min) and so was PCR2 and PCR3. These ligations did not show any bands around the expected length (1700 bp) during gel purification. Two new ligations (of the same), with higher concentrations of digested PCR products, are reacting overnight.</p>
+
<p>PCR1 (consisting of template 2:2P) and PCR2 (consisting of template 2:2P) have both been fast digested with SpeI. PCR3 (consisting of template 2:24D) has been fast digested with XbaI. PCR1 and PCR3 were attempted ligated (for 30 min) and so were PCR2 and PCR3. These ligations did not show any bands around the expected length during gel purification. Two new ligations (of the same), with higher concentrations of digested PCR products, are reacting overnight.</p>
-
<p>- Anne and Ulrika</p>
 
</td>
</td>
Line 231: Line 222:
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
<p>We realized that we have to step back in the process by inserting the different parts we want to ligate into a plasmid before ligating them to each other.</p>
<p>We realized that we have to step back in the process by inserting the different parts we want to ligate into a plasmid before ligating them to each other.</p>
-
<p>We then started our day in the lab by doing a PCR reaction on PCR1 (consisting of template 2:2P, primers yellow#5 and yellow#6) and PCR2 (consisting of template 2:2P and primers yellow#5 and yellow#7). Unfortunately PCR2 didn't show the right sequence when run on gel. This means we will have to repeat our PCR 2 from before to se if it works in second round.</p>
+
<p>Therefore we started our day in the lab by doing a PCR reaction on PCR1 (consisting of template 2:2P) and PCR2 (consisting of template 2:2P). Unfortunately PCR2 didn't show the right band length when run on gel.</p>
 +
 
 +
<p>PCR was also done on the lacP promoter (BBa_R0010)and GFP coding seq. (BBa_E0840). The sequences machted the lenght seen on the gel. The band from the gel was cut out and purified.</p>
 +
<p>PCR1, PCR3 and LacP were digested.</p>
-
<p>PCR was also done on the lacP promoter (BBa_R0010)and GFP coding seq. (BBa_E0840). The sequences machted the the lenght seen in the gel. The band from the gel was cut out and purified.</p>
 
-
<p>- Anne</p>
 
</td>
</td>
Line 242: Line 234:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Yesterday the following products were digested:
+
<p> The digested products from yesterday were purified.</p>
-
<li>PCR 1, Pcon_rbs_BBa_C0040(LVAtag_removed)_term</li>
+
-
<li>PCR 3, Ptet_BBa_E0840</li>
+
-
<li>LacP, BBa_R0010</li>
+
-
<p>These products were purified today.</p>
+
-
<p>Furthermore PCR on PCR 2 (Pcon_rbs_BBa_C0040_term) was repeated, this time with a gradient spanding from 53°C - 58°C. Our results were good this time.
+
<p>Furthermore PCR on PCR 2 was repeated, this time with a gradient spanding from 53°C - 58°C. Our results were good this time.
-
The products were purified and their concentrations varied from 10 ng/µL - 11,7 ng/µL.
+
The products were purified and their concentrations were meassured with NanoDrop.</p> 
-
</p>
 
-
<p>- Anne</p>
 
</td>
</td>
Line 260: Line 246:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Tet construct:
+
<p> Tet construct:  
-
The plasmid pSB1C3 was concentrated before it was digested with the enzymes Xbai and SpeI. The plasmid was ligated with the following:
+
Plasmid pSB1C3 was concentrated before it was digested with the enzymes Xbai and SpeI. The plasmid was ligated with digested PCR1, PCR2 and PCR3.</p>
-
<li>The digested PCR1, Pcon_rbs_BBa_C0040(LVAtag_removed)_term, from yesterday was ligated into plasmid</li>
+
-
<li>PCR2, Pcon_rbs_BBa_C0040_term, was digested with XbaI and SpeI to begin with and then ligated into plasmid</li>
+
-
<li>The digested PCR3, Ptet_BBa_E0840, from yesterday was ligated into plasmid</li>
+
Lac Construct:
Lac Construct:
Line 271: Line 254:
<li>LacP, BBa_R0010, was ligated with our C part in plasmid</li>
<li>LacP, BBa_R0010, was ligated with our C part in plasmid</li>
-
Transformation is made and we will have the results tomorrow.</p>
+
</p>The ligated products were transformed.</p>
</td>
</td>
Line 279: Line 262:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>The transformation from yesterday was successful. To examine if the digestion and ligation were a success, colony PCR was performed on all of the cultures. Four colonies were tested from each agar plate. The result showed that part B (Bba_R0010) and C (Bba_E0840) had been ligated successfully. Unfortunately nothing could be seen on the gel with regard to PCR1, PCR2 and PCR3. Therefor a new colony PCR was performed on the colonies with PCR1, PC2 and PCR3, but with VF2 and VR primers.
+
<p>The transformation from yesterday was successful. Colony PCR was performed on all transformations. The result showed that part B (Bba_R0010) and C (Bba_E0840) had been ligated successfully. Unfortunately nothing could be seen on the gel with regard to PCR1, PCR2 and PCR3. Therefore a new colony PCR was performed on different colonies with PCR1, PC2 and PCR3. The gel showed no or no proper bands, so we concluded, that a religation must have happened.
 +
Therefore we checked our enzymes by digesting pSB1C3. Here we could conclude that something must be wrong with XbaI, as it does not cut.</p>
 +
</p> An ON was made containing BC construct.</p>
</tr>
</tr>
Line 287: Line 272:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Today we realized that XbaI didn't work well when we used green buffer for fast digest of our products.
+
<p> XbaI was doublechecked and we found out, that the enzyme does not cut when using the green Fast Digest buffer.</p>
-
This leaded to an experiment where we compared digestion with green buffer and a colorless buffer, which we ran on gel afterwards.  
+
 
-
We saw that the green buffer didn't work optimally because the gel showed smear and there was very little of the disired product in general.
+
<p>We puridied our PCR1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term) and PCR3 (Ptet_BBa_E0840) and digested these while using the colorless buffer.
 +
Furthermore PCR1, PCR2 and PCR3 were amplified by a PCR reaction.</p>
 +
 
 +
</p>ON containing BC contruct was miniprepped and run on a gel together with C in plasmid. The length of the bands were compared and seemed appropiate.  
 +
Anyway, to be sure, a PCR was made on the BC construct. This time the gel showed too short bands, which could mean, that the C in plasmid has religated. We conclude that this must have happened because of the enzyme XbaI, that did not cut in green buffer, but was used on this construct before. Therefore C in plasmis was digested again and ligated with B.</p>
-
We puridied our PCR products 1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term) and 3 (Ptet_BBa_E0840) and digested these with the colorless buffer this time.
 
-
</p>
 
</td>
</td>
Line 300: Line 287:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>
+
<p>Ligation of our digested product, PCR 1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term), PCR2 (Pcon_rbs_BBa_C0040_term) and PCR3 (Ptet_BBa_E0840), into a backbone, pSB1C3. Ligation of B(LacP, BBa_R0010) and C (GFP, BBa_E0840) construct into pSB1C3.</p>
-
Ligation of our digested product, PCR 1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term), PCR2 (Pcon_rbs_BBa_C0040_term) and PCR3 (Ptet_BBa_E0840), into a backbone, pSB1C3. Ligation of B(LacP, BBa_R0010) and C (GFP, BBa_E0840) konstruct into pSB1C3.
+
<p>Transformation of PCR 1(Pcon_rbs_BBa_C0040(LVAtag_removed)_term),PCR2 (Pcon_rbs_BBa_C0040_term), PCR3 (Ptet_BBa_E0840) and BC (LacP, BBa_R0010 + GFP, BBa_E0840) into E. coli.</p>
-
Transformation on PCR 1(Pcon_rbs_BBa_C0040(LVAtag_removed)_term),PCR2 (Pcon_rbs_BBa_C0040_term), PCR3 (Ptet_BBa_E0840) and BC (LacP, BBa_R0010 + GFP, BBa_E0840) into E. coli.
+
<p>An ON containing plasmid pSB1C3 was made.</p>  
-
</p>
+
</td>
</td>
Line 311: Line 297:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>We made miniprep to get more plasmid pSB1C3, which can be used in experiments.
+
<p>The ON containing pSB1C3 from yesterday was miniprepped.</p>
-
</p>
+
</td>
</td>
Line 323: Line 308:
<tr>
<tr>
<td width="100%"  valign="top">  
<td width="100%"  valign="top">  
-
<p>Over night culture was made on our wild type E. coli from freezing stock.
+
<p>ON culture containing wild type E. coli from freezing stock was made.</p>
-
The agar plates with our transformated plasmids from Saturday showed colonies with different colors.
+
<p>The agar plates with our transformated plasmids from Saturday showed colonies with different colors.
-
Colony PCR on the colonies that seemed to have worked was made and run on gel.
+
Colony PCR was made on the colonies that seemed to have worked and were afterwards ran on gel. The bands had the right length. Furthermore single colony streaking was made on the same colonies, that were used for Colony PCR.</p>
-
The lenghts from colony PCR products had the right lengths.
+
<p>B and C in plasmid, and PCR1, PCR2, PCR3 and pSB1C3 were ligated and afterwards transformed.</p>  
-
There was also made plate streaking from the colonies used for the colony PCR.
+
<p>A PCR was run on PCR1, PCR2 and B (lacI).</p>
-
</p>
+
-
</td>
+
-
 
+
-
 
+
-
 
+
-
<tr>
+
-
<td width="100%"  valign="top">  
+
-
<p>
+
-
PCR was made on PCR 1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term) (green 20), PCR2 (Pcon_rbs_BBa_C0040_term) (green 22), PCR3 (Ptet_BBa_E0840) (green 21) & lacI (part B, blue 7) using the protocol iGEM2014_SOP0010_v01_Phusion PCR. </p>
+
-
 
+
-
Added 1μL template to each reaction -> 13,4 μL water. </p>
+
-
 
+
-
PCR program:
+
-
<ol>
+
-
<li> 98˚C 2 min.</li>
+
-
<li> 98 ˚C 10 sec.</li>
+
-
<li> 53 ˚C 30 sec.</li>
+
-
<li> 72 ˚C 15 sec.</li>
+
-
<li> GOTO 2REP 30</li>
+
-
<li> 72 ˚C 10 min.</li>
+
-
<li> HOLD 4 ˚C </li>
+
-
</ol>
+
-
</p>
+
-
+
-
PCR didn’t work on PCR2, PCR3 and lacI (part B, blue 7) </p>
+
-
 
+
-
<p>- Camilla J </p>
+
-
</td>
+
-
 
+
-
<tr><td colspan="3"> <h5>Tuesday 15/7</h5></td></tr>
+
</tr>
</tr>
-
 
-
<tr>
 
-
<td width="100%"  valign="top">
 
-
<p>
 
-
Today we made colony PCR from the colonies we plate streaked yesterday.
 
-
The PCR was repeated from yesterday to double check if our results were right.
 
-
We had good results again which means we can make freezing stocks on our transformed E. coli.</p>
 
-
</td>
 

Revision as of 12:17, 19 August 2014

Lab Journal

Week 25 (16/6 - 22/6)

Monday 16/6

We started our work in the wet lab with a three days lab crash course. We learned basics, as running a PCR, and where we can find everything that is needed for working in the lab. In addition, we talked a lot about the project goals and the way of getting there.

Tuesday 17/6

In the lab: The PCR reactions from yeasterday didn't work, so they were repeated. This time 50 µL PCR reaction were prepared. Gel purification was performed on the PCR products and the final concentration was measured by nanodrop.

We digested the products by using restriction enzymes XbaI og SpeI. We detected that the plasmid was only linearized, meaning that only one restriction enzyme/ restriction site was functional.

We worked on the basics in the iGEM concept. We discussed the definitions of biobrick, basis part, composite part and deviced. We learned the "Standard Assembly Method", it's condition, uses and limitations.

We defined the conditions for our own device and started searching for the necessary parts in the iGEM registry.

Wednesday 18/6

We digested two plasmid, each with the enzymes XbaI and EcoRI. Unfortunately it didn’t work as expected, as XbaI did not cut. We made some control experiments to check this and concluded that one of the plasmids might miss the E restriction site.

We recieved lab safety training.

Friday 20/6

Team page and Notebook page added to the wiki.

Two PCR reactions were made to amplify plasmids from the iGEM 2014 kit. The gel, that was ran afterwards, showed bands in the right length. The bands were cut out and purified.

Saturday 21/6

All the pipettes were calibrated

A K12 MG1655 strain was plated out on agar, to colonize overnight, in order for us to produce more plasmid later on.

Sunday 22/6

One bacterial colony from the agar plate from yesterday was transferred to fluid LB media to amplify WT bacteria. TSB buffer was made. A transformation was made.

Week 26 (23/6 - 29/6)

Monday 23/6

The transformation from yesterday has not been successful.

New plates with Ampicilin, Kanamycin and Chloramphenicol were made.

Wednesday 25/6

A transformation was made.

Thursday 26/6

The transformation from yesterday has been partly successful. One plate had no colonies. For the transformations that were successful an ON was made.

The cultures should be prepared for storage at -80°C tomorrow.

Friday 27/6

Freezing stocks were made out of the ON from yesterday. The samples were then stored at -80°C.

Saturday 28/6

The non-successful transformation from Wednesday 25/6 was repeated.

Sunday 29/6

The transformation was partially successful. There were some, but very few, visible colonies on the agar plates. Two overnight cultures were prepared from one colony respectively.

Week 27 (30/6 - 6/7)

Monday 30/6

The overnight culture was not red, as expected, which means that something was wrong with the plasmid. Therefore a new overnight culture was prepared, so that a Colony PCR can be performed on the cultures. Furthermore an overnight culture was prepared of the wild type E. coli strain, so that it can be used for transformation tomorrow.

Tuesday 1/7

Today a Colony PCR was performed on the E. coli MG1655 strains with the plasmids: pSB1A3, pSB1C3, pSB1K3 and J04450 (also known as aza). The results showed that the constructs all had approximately the same weight, just below 1500 bp. This corresponds to the theoretical weight of the constructs, which is 1382 bp.

The development of the construct used to produce lacI was commenced. This was done by first running Phusion PCR on lacI (BBa_I732100, Template 8A, Plate 3). The PCR product was then analysed on gel-electrophoresis and purified.

Transformation was performed on the plasmids pSB1C3 and pSB1K3 as the former transformation was unsuccessful. Furthermore transformation was also performed on the parts BBa_R0010 (lacP promoter) and BBa_E0840 (GFP coding seq.). The transformed E. coli were put on agar plates with antibiotic according to their respective resistance. The plates were placed in the heating cabinet and should be examined for colonies tomorrow.

Wednesday 2/7

Because the PCR on lacI from yesterday yielded a low concentration, Phusion PCR was repeated today, where both the PCR product from yesterday and BBa_I732100 from iGEM were used as template. The results showed that the PCR product from yesterday was too short and still yielded a low concentration. While the PCR reaction with BBa_I732100 as template produced a higher concentration of lacI.

The transformation on the parts BBa_R0010 (lacP promoter) and BBa_E0840 (GFP coding seq.) from yesterday was unsuccesful so the experiment was repeated today.

Freezing stocks of E. coli with pSB1C3 and pSB1K3 were stored at -80°C. Each culture were mixed with 50% glycerol

Furthermore fast digest on our 3 PCR products were made with XbaI and SpeI.

PCR 1 and 3 were ligated and PCR 2 and 3 were ligated.

Thursday 3/7

Today the ligated PCR1/3 and PCR2/3 were purified by running them through a gel. The concentration of the purified constructs were measured by nano drop.

In order to create "sticky ends" on PCR1/3 and PCR2/3, the parts were fast digested. Also pSB1C3 was fast digested, so that it could be used as a backbone. The different fast digested parts were gel purified. PCR1/3 and PCR2/3 were then ligated to the backbone (pSB1C3).

Colony PCR was performed on a colony from the transformation from Wednesday 2/7 of the lacP promoter (BBa_R0010) and GFP coding seq. (BBa_E0840). The gel showed bands that were too long, therefore a new colony PCR was performed on a different colony. The results from the new colony PCR were the same as before, with the weight of GFP just above 1000 bp and the weight of lacP promoter just around 500 bp.

Friday 4/7

A miniprep was performed on the ON containing lacP promoter (BBa_R0010) and GFP coding seq. (BBa_E0840), and a freezing stock was made.

Furthermore a PCR was made on the products from the miniprep. Unfortunatly the PCR didn't work, as the gel didn't show any products.

Because the PCR didn't work we found the products from the iGEM kit from 2014 and made a new PCR.

This time the PCR worked and the products were gel purified and the concentrations meassured with NanoDrop.

Saturday 5/7

PCR was preformed on LVA less GFP with tet promoter using primers yellow#8 and yellow#9. The PCR was purified using the gel purification SOP.

A digest was done on PCR products #11 and #12 in an attempt to ligate these. Ligation was done in 30 mins at RT whereupon the ligase was inactivated at 65 °C for 10 mins. Purification of the ligation product was done, diverging from the SOP and resulting in an unusable amount of product.

Sunday 6/7

The lacP promoter (BBa_R0010)and GFP coding seq. (BBa_E0840) have been ligated but the concentration was low and therefore we made PCR on the product.

The PCR product was run on a gel. The band was hard to separate from other bands around the same length (1400bp). We cut out the right length and purified it. Nanodrop was measured.

PCR1 (consisting of template 2:2P) and PCR2 (consisting of template 2:2P) have both been fast digested with SpeI. PCR3 (consisting of template 2:24D) has been fast digested with XbaI. PCR1 and PCR3 were attempted ligated (for 30 min) and so were PCR2 and PCR3. These ligations did not show any bands around the expected length during gel purification. Two new ligations (of the same), with higher concentrations of digested PCR products, are reacting overnight.

Week 28 (7/7 - 13/7)

Monday 7/7

We realized that we have to step back in the process by inserting the different parts we want to ligate into a plasmid before ligating them to each other.

Therefore we started our day in the lab by doing a PCR reaction on PCR1 (consisting of template 2:2P) and PCR2 (consisting of template 2:2P). Unfortunately PCR2 didn't show the right band length when run on gel.

PCR was also done on the lacP promoter (BBa_R0010)and GFP coding seq. (BBa_E0840). The sequences machted the lenght seen on the gel. The band from the gel was cut out and purified.

PCR1, PCR3 and LacP were digested.

Tuesday 8/7

The digested products from yesterday were purified.

Furthermore PCR on PCR 2 was repeated, this time with a gradient spanding from 53°C - 58°C. Our results were good this time. The products were purified and their concentrations were meassured with NanoDrop.

Wednesday 9/7

Tet construct: Plasmid pSB1C3 was concentrated before it was digested with the enzymes Xbai and SpeI. The plasmid was ligated with digested PCR1, PCR2 and PCR3.

Lac Construct:
  • Pcon_rbs_LacI(withoutLVA)_term, BBa_C0012, was digested with EcoRI and SpeI
  • GFP, BBa_E0840 in plasmid has beed ligated
  • LacP, BBa_R0010, was ligated with our C part in plasmid
  • The ligated products were transformed.

    Thursday 10/7

    The transformation from yesterday was successful. Colony PCR was performed on all transformations. The result showed that part B (Bba_R0010) and C (Bba_E0840) had been ligated successfully. Unfortunately nothing could be seen on the gel with regard to PCR1, PCR2 and PCR3. Therefore a new colony PCR was performed on different colonies with PCR1, PC2 and PCR3. The gel showed no or no proper bands, so we concluded, that a religation must have happened. Therefore we checked our enzymes by digesting pSB1C3. Here we could conclude that something must be wrong with XbaI, as it does not cut.

    An ON was made containing BC construct.

    Friday 11/7

    XbaI was doublechecked and we found out, that the enzyme does not cut when using the green Fast Digest buffer.

    We puridied our PCR1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term) and PCR3 (Ptet_BBa_E0840) and digested these while using the colorless buffer. Furthermore PCR1, PCR2 and PCR3 were amplified by a PCR reaction.

    ON containing BC contruct was miniprepped and run on a gel together with C in plasmid. The length of the bands were compared and seemed appropiate. Anyway, to be sure, a PCR was made on the BC construct. This time the gel showed too short bands, which could mean, that the C in plasmid has religated. We conclude that this must have happened because of the enzyme XbaI, that did not cut in green buffer, but was used on this construct before. Therefore C in plasmis was digested again and ligated with B.

    Saturday 12/7

    Ligation of our digested product, PCR 1 (Pcon_rbs_BBa_C0040(LVAtag_removed)_term), PCR2 (Pcon_rbs_BBa_C0040_term) and PCR3 (Ptet_BBa_E0840), into a backbone, pSB1C3. Ligation of B(LacP, BBa_R0010) and C (GFP, BBa_E0840) construct into pSB1C3.

    Transformation of PCR 1(Pcon_rbs_BBa_C0040(LVAtag_removed)_term),PCR2 (Pcon_rbs_BBa_C0040_term), PCR3 (Ptet_BBa_E0840) and BC (LacP, BBa_R0010 + GFP, BBa_E0840) into E. coli.

    An ON containing plasmid pSB1C3 was made.

    Sunday 13/7

    The ON containing pSB1C3 from yesterday was miniprepped.

    Week 29 (14/7 - 20/7)

    Monday 14/7

    ON culture containing wild type E. coli from freezing stock was made.

    The agar plates with our transformated plasmids from Saturday showed colonies with different colors. Colony PCR was made on the colonies that seemed to have worked and were afterwards ran on gel. The bands had the right length. Furthermore single colony streaking was made on the same colonies, that were used for Colony PCR.

    B and C in plasmid, and PCR1, PCR2, PCR3 and pSB1C3 were ligated and afterwards transformed.

    A PCR was run on PCR1, PCR2 and B (lacI).

    Wednesday 16/7

    Today we started by doing miniprep of the ON cultures from yesterday (PCR 1, PCR 2, PCR3 and B+C in plasmid). Though the concentration was not high enough to be sent in to sequencing. The samples were therefor placed in the centrifugal evaporator to increase the concentration.

    A new ON culture of these strains is prepared, in case that something goes wrong

    Also the ordered parts from iGEM arrived today, and these were plated on agar plates with the appropriate antibiotics and placed in the incubator.

    _MVM
    Thursday 17/7

    The plasmids that were prepared yesterday (PCR 1, PCR 2, PCR 3 and B+C) were digested today with:

  • PCR 1: EcoRI + SpeI
  • PCR 2: EcoRI + SpeI
  • PCR 3: EcoRI + XbaI
  • B+C: EcoRI + XbaI
  • The products were then run on gel and gel purified. The products were dissolved in 20 µL ultra pure water. The following concentrations were obtained:

  • PCR 1: 37.3 ng/µL
  • PCR 2: 8.0 ng/µL
  • PCR 3: 15.1 ng/µL
  • B+C: 16.4 ng/µL
  • The following digested parts were then ligated:

  • PCR 1 + PCR 3
  • PCR 2 + PCR 3
  • A + (B+C)
  • A + B
  • Furthermore the plasmids with PCR 1, PCR 2, PCR 3 and B+C were prepared to be sent to Eurofins for DNA sequencing.

    As mentioned yesterday a ON-culture was prepared yesterday. The culture was attempted mini-prepped, but the mini-prep was unsuccessful. Consequently a new ON-culture was prepared today.

    The parts from iGEM that were plated yesterday, were today prepared for ON-culture, so that a freezing stock can be made tomorrow.

    - Jens Jakob

    Friday 18/7

    We prepared a freezing stock of the parts we had ordered and received from iGEM, and the remaining sample from the ON culture used for the freezing stocks, was miniprepped and catalogued.

    Some of the minipreps, were prepared with a wash buffer not containing any ethanol, and therefore we has miserable results. New ON cultures of those was prepared.

    Saturday 19/7

    The ON cultures of the iGEM parts from yesterday, were miniprepped with fine results.

    Colony PCR was performed on the cultures transformed with PCR1+3, PCR2+3, ABC and AB. There were no colonies on plate 5.10 (AB-part).

    Plate streaking was performed on each colony taken for colony PCR.

    At first sight the results from the colony PCR seems to suggest that something went wrong during the digestion or ligation, since only re-ligations seems to be present.

    Sunday 20/7

    As we were not successful in transforming the samples from th 19th of June a new batch was initiated. That is PCR1, 2, and 3 together with B and BC was digested, ligated, and transformed.

    In accordance with our decision to make the nutrient producing strain taste good transformations of parts; I742111 (RBS+limonene synthase), K118024 (dsx+LIMS1+appY), J23119 (constitutive promoter), and B0015 (double terminator) was commenced. These are going to constitute the construct for producing lemon taste and scent.

    /Daniel

    Monday 21/7

    Text

    /Name

    Tuesday 22/7

    Minipreps were made on (yields were measured in nanodrop):

  • Blue#51: J23119 (104,7 ng/μL)
  • Blue#52: I742111 (58,8 ng/μL)
  • Blue#53: K118024 (71,7 ng/μL)
  • Blue#54: Lac promoter (BBa_R0010) (40 ng/μL)
  • Blue#55: pSB1AT3 (84,9 ng/μL)
  • /Daniel

    Wednesday 23/7

    Today we ran colony PCR on transformations:

  • PCR 1+3
  • PCR 2+3
  • A+B
  • A+BC
  • B0015 terminator
  • Also J23119 and K118024 were ligated and J23119 and I742111 were also ligated.

    /Daniel

    Thursday 24/7

    We recieved a delta 12 desaturase from Julius Fredens today, it is a Fat2 desaturase originating from C. elegans, we are planing on testing it and we might add it to the iGEM parts registry since it does not seem to be registered.

    /Daniel

    Friday 25/7

    Over night cultures have been made for (started at 3:30 PM):

  • PCR 1
  • PCR 2
  • PCR 3
  • B
  • C
  • BC
  • /Daniel

    To check that we have the correct lenghts of our PCR1,2,3 and part A,B,C & BC, we ran a PCR. This did not work, so we repeated the PCR this time with a Tm on 51 degrees. The products with a length on 1000 bp and lower got 15 sec. at step 4, and the products with lengths over 1000 bp got 30 sec.

    /Camilla

    Saturday 26/7

    Miniprep has been made of the ON cultures from 25/7 (these can be used for cloning later on):

  • PCR 1
  • PCR 2
  • PCR 3
  • B
  • C
  • BC
  • PCR reactions of PCR 1, 2 and 3 was made from different templates, these are to be purified tomorrow.

    /Daniel

    Gradient PCR was ran on part A with lac_LVAR & lac_LVA_F as primers. 2,5 uL template & 31 uL water. Tm graient at 51-70 deg. with 5 samples. PCR program: 1: 98 deg., 2 min. 2: 98 deg., 10 sec. 3: 51-70 deg., 30 sec. 4: 72 deg., 45 sec. 5: GO TO 2 rep 30. 6: 72 deg., 5 min. After running the PCR on a gel, no clear, correct bands showed. This was due to the primers, which had a too high concentration, thus they were diluted.

    After the dilution, a touch down PCR was made, starting at 66 deg. going 1 deg. lower per cycle for 10 cycles, thus ending at 56 deg. A gel showed a clear band with the correct bands. In order for us to have a high enough concentration of PCR1 & PCR2 for ligation, we ran a PCR with the program: 1:98 deg., 2 min. 2: 98 deg., 10 sec. 3: 50 deg., 30 sec. 4: 72 deg., 2 sec. 5: GO TO 2 rep 30. 6: 72 deg., 5 min.

    after running a gel with the PCR products, bands showed with the wrong lenghts that wasn't religation. Thus we concluded that the PCR1 and PCR2 used was incorrect.

    Due to this, we ran a PCR on all of our PCR1,2,3 products with verification primers, to check wether they had the correct lengths, which they luckily had.

    /Anne, Sarah & Camilla

    Sunday 27/7

    PCR products made yesterday has been purified, this was PCR 1, 2 and 3 from different templates.

    /Daniel