Team:Goettingen/week20-2

From 2012.igem.org

(Difference between revisions)
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<h2><b>V09_10 </b></h2><br>
<h2><b>V09_10 </b></h2><br>
-
<b>V09_10_1 Miniprep of pSB1C3 (including <i>motA</i>, <i>motB</i> or <i>yhjH</i>)</b><br>
+
<b>V09_10_1 Miniprep of pSB1C3-<i>motA</i>, pSB1C3-<i>motB</i> and pSB1C3-<i>yhjH</i></b><br>
<ul>
<ul>
<li>Experiment: <br>Plasmids were prepped using PeqGOLD MiniPrep Kit (Peqlab) accirding to the manual.</li>
<li>Experiment: <br>Plasmids were prepped using PeqGOLD MiniPrep Kit (Peqlab) accirding to the manual.</li>
</ul>
</ul>
<br>
<br>
-
<b>V09_10_2 Test digestion of pSB1C3 (including <i>motA</i>, <i>motB</i> or <i>yhjH</i>)</b><br>
+
<b>V09_10_2 Test digestion of pSB1C3-<i>motA</i>, pSB1C3-<i>motB</i> and pSB1C3-<i>yhjH</i></b><br>
<ul>
<ul>
-
<li>Experiment: <br>Test digestion of pSB1C3 (including <i>motA</i>, <i>motB</i> or <i>yhjH</i>) with the restriction enzymes <i>EcoRI</i> and <i>PstI</i>. Afterwards, the product was loaded in a 1% analytical gel in order to verify its success.<br> </li>
+
<li>Experiment: <br>Test digestion of the three constructs was performed with the restriction enzymes <i>EcoRI</i> and <i>PstI</i>. Afterwards, the product was loaded in a 1% analytical gel in order to verify its success.<br> </li>
<li>Observations & Results: <br>
<li>Observations & Results: <br>
  The digestion worked for all clones since fragments with the appropriate size were produced over all. </li>
  The digestion worked for all clones since fragments with the appropriate size were produced over all. </li>
</ul>
</ul>
<br>
<br>
-
<b>V09_10_3 Digestion of <i>motA</i>, <i>motB</i>, <i>yhjH</i> and the promoters 20E, 20I and 18C</b><br>
+
<b>V09_10_3 Preparative double digestion of <i>motA</i>, <i>motB</i>, <i>yhjH</i> and three different promoter-constructs</b><br>
<ul>
<ul>
-
<li>Experiment: <br> <i>motA</i>, <i>motB</i> or <i>yhjH</i> were digested with <i>XbaI</i> and <i>PstI</i>. The plasmids with the different promoters were treated with <i>SpeI</i> and <i>PstI</i>. The digestion was then controlled via gel-electrophoresis.<br> </li>
+
<li>Experiment: <br>
 +
In order to investigate our genes of interest under the control of different promoter strengths, we planned to clone our genes into three different plasmids with different promoters. The genes of interest,  <i>motA</i>, <i>motB</i> and <i>yhjH</i> were digested with <i>XbaI</i> and <i>PstI</i>. The plasmids with the different promoters were treated with <i>SpeI</i> and <i>PstI</i>. The digestion was then controlled via gel-electrophoresis.<br> </li>
<li>Observations & Results: <br>
<li>Observations & Results: <br>
Since for all clones band of the expected size could be obtained these were isolated from the gel and purified using PeqGOLD Gelextraction Kit (Peqlab) according to the manual.</li>
Since for all clones band of the expected size could be obtained these were isolated from the gel and purified using PeqGOLD Gelextraction Kit (Peqlab) according to the manual.</li>
</ul>
</ul>
<br>
<br>
-
<b> V09_10_4 Repetition of the Quikchange of <i>fliC</i></b><br>
+
<b> V09_10_4 Repetition of the Overlapping PCR of <i>fliC</i></b><br>
<ul>
<ul>
-
<li>Experiment: <br> This the Quikchange PCR was performed using the designed primers and a new <i>PfuTurbo</i> polymerase (see Quick Change protocol in "protocols"). Also this time four short fragments were produced first and subsequently combined to a complete final DNA fragment. <br></li>
+
<li>Experiment: <br> This time the Quikchange PCR was performed using the designed primers and a new <i>PfuTurbo</i> polymerase (<a href="https://2012.igem.org/Team:Goettingen/Project/Methods">protocol</a>). Also this time four short fragments were produced first and subsequently combined to a complete final DNA fragment. <br></li>
<li>Observations & Results: <br>
<li>Observations & Results: <br>
Once again the QC PCR failed for no PCR product was observed. Whether the primers, the enzyme or anything else cause the QC PCRs failure is not clear to us yet.  </li>
Once again the QC PCR failed for no PCR product was observed. Whether the primers, the enzyme or anything else cause the QC PCRs failure is not clear to us yet.  </li>
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</table>
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<br>
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 +
 +
<table cellpadding="20 px" border="1" bordercolor="black" valign="top">
<table cellpadding="20 px" border="1" bordercolor="black" valign="top">
<tr bordercolor="black" valign="top">
<tr bordercolor="black" valign="top">
<td width="900" bordercolor="black" valign="top">
<td width="900" bordercolor="black" valign="top">
<h2><b>V09_11 </b></h2><br>
<h2><b>V09_11 </b></h2><br>
-
<b>V09_11_1 Insertion <i>motA</i>, <i>motB</i> and <i>yhjH</i> into J61002 </b><br>
+
<b>V09_11_1 Ligation <i>motA</i>, <i>motB</i> and <i>yhjH</i> into J61002 </b><br>
<ul>
<ul>
-
<li>Experiment: <br>  <i>motA</i>, <i>motB</i> and <i>yhjH</i> were ligated nto the plasmid J61002 with different promoters (20E, 20I and 18C) according to the protocol.<br></li>
+
<li>Experiment: <br>  <i>motA</i>, <i>motB</i> and <i>yhjH</i> were ligated into the plasmid J61002 with different promoters (20E, 20I and 18C) according to the <a href="https://2012.igem.org/Team:Goettingen/Project/Methods">protocol</a>.<br></li>
</ul><br>
</ul><br>
-
<b>V09_11_2 Chemical transformation of <i>motA</i>, <i>motB</i> and <i>yhjH</i> into  <i>E. coli</i> DH10B </b><br>
+
<b>V09_11_2 Chemical transformation of pSB1C3-<i>motA</i>, pSB1C3-<i>motB</i> and pSB1C3-<i>yhjH</i> into  <i>E. coli</i> DH10B </b><br>
<ul>
<ul>
<li>Experiment: <br>   
<li>Experiment: <br>   
-
The ligation products were transformed into the <i>E. coli</i> DH10B as described in the standard protocol.</li>
+
The ligation products were transformed into the <i>E. coli</i> DH10B as described in the standard <a href="https://2012.igem.org/Team:Goettingen/Project/Methods">protocol</a>.</li>
<li>Observations & Results: <br>
<li>Observations & Results: <br>
The transformation was successful since numerous colonies were grown on all plates except for the negative control.</li>
The transformation was successful since numerous colonies were grown on all plates except for the negative control.</li>
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</ul>
</ul>
<br>
<br>
-
<b>V09_11_3 Repetition of the Quikchange of <i>fliC</i> part 1</b><br>
+
<b>V09_11_3 Repetition of Overlapping PCR of <i>fliC</i> (1st Part)</b><br>
<ul>
<ul>
<li>Experiment: <br>  
<li>Experiment: <br>  
-
After consultation with our supervisor we decided to give the QC PCR another try using Phusion polymerase this time. The first reaction round resulting in the production of the four short fragments was prepared according to the protocol  and subsequently analyzed on gel. <br></li>
+
After consultation with our supervisor we decided to give the Overlapping PCR another try using Phusion polymerase this time. The first reaction round resulting in the production of the four short fragments was prepared according to the protocol  and subsequently analyzed on gel. <br></li>
<li>Observations & Results: <br>
<li>Observations & Results: <br>
-
This time the QC PCR was successful! The gel showed stron bands of the expected size. Obviously the <i>PfuTurbo</i> polymerase, which is known to be perfect for Quikchange was the reason for the previous failures. </li>
+
This time the QC PCR was successful! The gel showed strong bands of the expected size. Obviously the <i>PfuTurbo</i> polymerase, which is known to be perfect for Overlapping PCR was the reason for the previous failures. </li>
</ul>
</ul>
<br></td></tr>
<br></td></tr>
</table>
</table>
<br>
<br>
 +
 +
<table cellpadding="20 px" border="1" bordercolor="black" valign="top">
<table cellpadding="20 px" border="1" bordercolor="black" valign="top">
<tr bordercolor="black" valign="top">
<tr bordercolor="black" valign="top">
<td width="900" bordercolor="black" valign="top">
<td width="900" bordercolor="black" valign="top">
<h2><b>V09_12 </b></h2><br>
<h2><b>V09_12 </b></h2><br>
-
<b>V09_12_1 Repetition of the Quikchange of FliC part 2</b><br>
+
<b>V09_12_1 Repetition of the Overlapping PCR of <i>fliC</i> (2nd part)</b><br>
<ul>
<ul>
<li>Experiment: <br>  
<li>Experiment: <br>  
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</ul>
</ul>
<br>
<br>
-
<b>V09_12_2 Preparative double digestion of <i>yhjH</i> </b><br>
+
<b>V09_12_2 Preparative double digestion of J61002-Promoter-<i>RFP</i> constructs and pSB1C3 </b><br>
<ul>
<ul>
<li>Experiment: <br>   
<li>Experiment: <br>   
-
In order to clone <i>yhjH</i> behind different promoter a digestion with <i>XbaI</i> and <i>PstI</i> was performed according to the protocol. The restriction product was subsequently loaded on a 1% agarose gel, cut out and purified using the PeqGOLD Gelextraction Kit (Peqlab).</li>
+
In order to bring the promoters of the BioBrick library we used for our experiments on the new BioBrick standard plasmid pSB1C3, the parts as well as pSB1C3 were digested with <i>EcoRI</i> and <i>PstI</i> as described in the <a href="https://2012.igem.org/Team:Goettingen/Project/Methods">protocol</a>. The restriction products were subsequently loaded on a 1% agarose gel, cut out and purified using the PeqGOLD Gelextraction Kit (Peqlab). </li>
<li>Observations & Results: <br>
<li>Observations & Results: <br>
-
The digestion was successful for bands of the correct size could be observed. </li>
+
The digestion was successful. We could observe bands of the correct size.</li>
</ul><br>
</ul><br>
-
<b>V09_12_3 Insertion of <i>yhjH</i> into J61002 including the promoters 20E, 20I and 18C</b><br>
+
<b>V09_12_3 Insertion of the promoter-<i>RFP</i> constructs into pSB1C3</b><br>
-
<ul>
+
-
<li>Experiment: <br> 
+
-
<i>yhjH</i> was ligated into the plasmid J61002 behind the promoters 20E, 20I and 18C according to the protocol. </li>
+
-
</ul><br>
+
-
<b>V09_12_4 Preparative double digestion of RFP-promoter constructs and pSB1C3 </b><br>
+
-
<ul>
+
-
<li>Experiment: <br> 
+
-
In order to bring the promoters of the BioBrick library we used for our experiments on the new BioBrick standard the parts as well as pSB1C3 were digested with <i>EcoRI</i> and <i>PstI</i>  as described in the protocol. The restriction products were subsequently loaded on a 1% agarose gel, cut out and purified using the PeqGOLD Gelextraction Kit (Peqlab).  </li>
+
-
<li>Observations & Results: <br>
+
-
The digestion was successful for bands of the correct size could be observed.</li>
+
-
</ul><br>
+
-
<b>V09_12_5 Insertion of the RFP-promoter constructs into pSB1C3</b><br>
+
<ul>
<ul>
<li>Experiment: <br>   
<li>Experiment: <br>   
The eight RFP-promoter constructs were ligated into the vector pSB1C3 according to the protocol. </li>
The eight RFP-promoter constructs were ligated into the vector pSB1C3 according to the protocol. </li>
</ul><br>
</ul><br>
-
<b>V09_12_6 Miniprep of <i>motA</i>, <i>motB</i> and RFP</b><br>
 
-
<ul>
 
-
<li>Experiment: <br> 
 
-
Minipreps of <i>motA</i>, <i>motB</i> and RFP in pSB1C3 were conducted using the PeqGOLD MiniPrep Kit (Peqlab) according to the user manual. </li>
 
-
</ul><br>
 
-
 
<br>
<br>
<br></td></tr>
<br></td></tr>
</table>
</table>
<br>
<br>
 +
 +
<table cellpadding="20 px" border="1" bordercolor="black" valign="top">
<table cellpadding="20 px" border="1" bordercolor="black" valign="top">
<tr bordercolor="black" valign="top">
<tr bordercolor="black" valign="top">
<td width="900" bordercolor="black" valign="top">
<td width="900" bordercolor="black" valign="top">
<h2><b>V09_13 </b></h2><br>
<h2><b>V09_13 </b></h2><br>
-
<b>V09_13_1 Chemical transformation of the RFP-promoter constructs (in pSB1C3) into <i>E. coli</i> DH10B </b><br>
+
<b>V09_13_1 Chemical transformation of the pSB1C3-promoter-<i>RFP</i> into <i>E. coli</i> (DH10B) </b><br>
<ul>
<ul>
<li>Experiment: <br>  The transformation was performed as described in the protocol.</li>
<li>Experiment: <br>  The transformation was performed as described in the protocol.</li>

Revision as of 12:21, 22 September 2012

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#2 Speed Improvement - 20th week

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V09_10


V09_10_1 Miniprep of pSB1C3-motA, pSB1C3-motB and pSB1C3-yhjH
  • Experiment:
    Plasmids were prepped using PeqGOLD MiniPrep Kit (Peqlab) accirding to the manual.

V09_10_2 Test digestion of pSB1C3-motA, pSB1C3-motB and pSB1C3-yhjH
  • Experiment:
    Test digestion of the three constructs was performed with the restriction enzymes EcoRI and PstI. Afterwards, the product was loaded in a 1% analytical gel in order to verify its success.
  • Observations & Results:
    The digestion worked for all clones since fragments with the appropriate size were produced over all.

V09_10_3 Preparative double digestion of motA, motB, yhjH and three different promoter-constructs
  • Experiment:
    In order to investigate our genes of interest under the control of different promoter strengths, we planned to clone our genes into three different plasmids with different promoters. The genes of interest, motA, motB and yhjH were digested with XbaI and PstI. The plasmids with the different promoters were treated with SpeI and PstI. The digestion was then controlled via gel-electrophoresis.
  • Observations & Results:
    Since for all clones band of the expected size could be obtained these were isolated from the gel and purified using PeqGOLD Gelextraction Kit (Peqlab) according to the manual.

V09_10_4 Repetition of the Overlapping PCR of fliC
  • Experiment:
    This time the Quikchange PCR was performed using the designed primers and a new PfuTurbo polymerase (protocol). Also this time four short fragments were produced first and subsequently combined to a complete final DNA fragment.
  • Observations & Results:
    Once again the QC PCR failed for no PCR product was observed. Whether the primers, the enzyme or anything else cause the QC PCRs failure is not clear to us yet.


V09_11


V09_11_1 Ligation motA, motB and yhjH into J61002
  • Experiment:
    motA, motB and yhjH were ligated into the plasmid J61002 with different promoters (20E, 20I and 18C) according to the protocol.

V09_11_2 Chemical transformation of pSB1C3-motA, pSB1C3-motB and pSB1C3-yhjH into E. coli DH10B
  • Experiment:
    The ligation products were transformed into the E. coli DH10B as described in the standard protocol.
  • Observations & Results:
    The transformation was successful since numerous colonies were grown on all plates except for the negative control.

V09_11_3 Repetition of Overlapping PCR of fliC (1st Part)
  • Experiment:
    After consultation with our supervisor we decided to give the Overlapping PCR another try using Phusion polymerase this time. The first reaction round resulting in the production of the four short fragments was prepared according to the protocol and subsequently analyzed on gel.
  • Observations & Results:
    This time the QC PCR was successful! The gel showed strong bands of the expected size. Obviously the PfuTurbo polymerase, which is known to be perfect for Overlapping PCR was the reason for the previous failures.


V09_12


V09_12_1 Repetition of the Overlapping PCR of fliC (2nd part)
  • Experiment:
    Since the first round of amplifications was successful, the samples 1 and 2 as well as 3 and 4 were combined via overlapping PCR. Afterwards, the samples 1+2 and 3+4 were combined as well. For all reaction the new Phusion polymerase was used. The success of both reactions was investigated via agarose gel electrophoresis.
  • Observations & Results:
    Both reactions were successful. We were able to receive fragments of a reasonable size.

V09_12_2 Preparative double digestion of J61002-Promoter-RFP constructs and pSB1C3
  • Experiment:
    In order to bring the promoters of the BioBrick library we used for our experiments on the new BioBrick standard plasmid pSB1C3, the parts as well as pSB1C3 were digested with EcoRI and PstI as described in the protocol. The restriction products were subsequently loaded on a 1% agarose gel, cut out and purified using the PeqGOLD Gelextraction Kit (Peqlab).
  • Observations & Results:
    The digestion was successful. We could observe bands of the correct size.

V09_12_3 Insertion of the promoter-RFP constructs into pSB1C3
  • Experiment:
    The eight RFP-promoter constructs were ligated into the vector pSB1C3 according to the protocol.




V09_13


V09_13_1 Chemical transformation of the pSB1C3-promoter-RFP into E. coli (DH10B)
  • Experiment:
    The transformation was performed as described in the protocol.
  • Observations & Results:
    successful?

V09_13_2 Preparative double digestion of fliC
  • Experiment:
    In order to clone fliC into pSB1C3 the product of the QC PCR was digested with EcoRI and PstI according to the protocol. The restriction products were subsequently leaded on a 1% agarose gel, cut out and purified using the PeqGOLD MiniPrep Kit (Peqlab) according to the user manual.
  • Observations & Results:
    The digestion was successful since fragments of the expected size could be obtained.

V09_13_3 Insertion of fliC into pSB1C3
  • Experiment:
    For the ligation of fliC into the vector pSB1C3 the protocol was followed.

V09_13_4 Preparation of over night cultures
  • Experiment:
    The following over night cultures were prepared:
    PSB1C3-MotA in DH10B and BL21
    PSB1C3-motB in DH10B and BL21


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