Team:NGSS TR/notebook.html

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         <li>F. Dilara Soylu: Head of team, project research, team  game;</li>
         <li>F. Dilara Soylu: Head of team, project research, team  game;</li>
         <li>Mariye Erol: Project research, visual modelling;</li>
         <li>Mariye Erol: Project research, visual modelling;</li>
-
         <li>Şevval Şimşir: Video preparing</li>
+
         <li>Sevval Simsir: Video preparing</li>
         <li>Beril Gürdap: Project research, lab experiments;</li>
         <li>Beril Gürdap: Project research, lab experiments;</li>
-
         <li>Asude Gül Akça: Project research, math modelling;</li>
+
         <li>Asude Akça: Project research, math modelling;</li>
         <li>Azra Öztürk: Wiki</li>
         <li>Azra Öztürk: Wiki</li>
         <li>Verda Kılınç: Photoshop</li>
         <li>Verda Kılınç: Photoshop</li>
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       <p><a name="december"></a></p>
       <p><a name="december"></a></p>
       <p><u>December 6</u></p>
       <p><u>December 6</u></p>
-
       <p>Meeting with our advisor Fatma Betül Çevik was done, we  discussed on our project ideas, some of them are provided below:</p>
+
       <p>Meeting with our advisor Fatma Betül Cevik was done, we  discussed on our project ideas, some of them are provided below:</p>
       <ol>
       <ol>
-
         <li>Pressure actıvated promoter, barometer</li>
+
         <li>Pressure activated promoter, barometer</li>
         <li>Synthetic rubber production</li>
         <li>Synthetic rubber production</li>
         <li>Restraining the conjugation</li>
         <li>Restraining the conjugation</li>
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       <p>Wiki templates prepared by Azra are discussed. We decided to  organize a &lsquo;Kermes&rsquo; (sale of homemade foods) to fund our project.</p>
       <p>Wiki templates prepared by Azra are discussed. We decided to  organize a &lsquo;Kermes&rsquo; (sale of homemade foods) to fund our project.</p>
       <p><u>March 28</u></p>
       <p><u>March 28</u></p>
-
       <p>We learned about disadvantages of the rapd detection systems  are used to detect S Pyogenes, bacteria causes several diseases. We narrowed  down our researches. </p>
+
       <p>We learned about disadvantages of the rapid detection systems  are used to detect S Pyogenes, bacteria causes several diseases. We narrowed  down our researches. </p>
       <h1>APRIL</h1>
       <h1>APRIL</h1>
       <p><a name="april"></a></p>
       <p><a name="april"></a></p>
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         <li>Further on Project: Documentary to further explain our  project.</li>
         <li>Further on Project: Documentary to further explain our  project.</li>
         <li>Beyond the Lab: Funny SynBio art activities </li>
         <li>Beyond the Lab: Funny SynBio art activities </li>
-
         <li>Rock&rsquo;n Twitter!: Twitter movement to introduce iGem</li>
+
         <li>Rock&rsquo;n Twitter!: Twitter movement to introduce iGEM</li>
-
         <li>Colloborations: Colloborations were done with other  iGem teams</li>
+
         <li>Colloborations: Colloborations were done with other  iGEM teams</li>
       </ol>
       </ol>
       <p><u>May 20</u></p>
       <p><u>May 20</u></p>
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       <p>We chose three colonies from both plates and put liquid cultures. We  made transformation again against the contamination possibility as the colonies  in T10 were small and the ones in BL21 were large. Result: No contamination. </p>
       <p>We chose three colonies from both plates and put liquid cultures. We  made transformation again against the contamination possibility as the colonies  in T10 were small and the ones in BL21 were large. Result: No contamination. </p>
       <p><u>May 30</u></p>
       <p><u>May 30</u></p>
-
       <p>We isolated six liquid cultures. We could not perform digestion as the  value of third colony of T10 compatentcell was low in the nano-drop. We  performed the digestion and electrophoresis of the other five samples. The bands were accurate. </p>
+
       <p>We isolated six liquid cultures. We could not perform digestion as the  value of third colony of T10 compatent cell was low in the nano-drop. We  performed the digestion and electrophoresis of the other five samples. The bands were accurate. </p>
       <img src="https://static.igem.org/mediawiki/2014hs/b/b8/300514.jpg"/>
       <img src="https://static.igem.org/mediawiki/2014hs/b/b8/300514.jpg"/>
       <p><u>May 31</u></p>
       <p><u>May 31</u></p>
       <p>We examined the values that the SpeB enzyme catechol was optimized. <br />
       <p>We examined the values that the SpeB enzyme catechol was optimized. <br />
-
         We tweeted #iGem2014United hashtag by having a colloboration  with other iGem teams on the twitter. </p>
+
         We tweeted #iGem2014United hashtag by having a colloboration  with other iGEM teams on the twitter. </p>
       <p>&nbsp;</p>
       <p>&nbsp;</p>
       <h1>JUNE</h1>
       <h1>JUNE</h1>
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       <p>We renewed the liquid cultures. </p>
       <p>We renewed the liquid cultures. </p>
       <p><u>June 3</u></p>
       <p><u>June 3</u></p>
-
       <p>We carried out Speb exposure test. We prepared catechol solution  (dilution). We diluted our enzyme. We carried out our experiment at the 96 well  plates without any catechol and by increasing the speb for control. We observed  the color change through hourly-controls. </p>
+
       <p>We carried out SpeB exposure test. We prepared catechol solution  (dilution). We diluted our enzyme. We carried out our experiment at the 96 well  plates without any catechol and by increasing the SpeB for control. We observed  the color change through hourly-controls. </p>
       <p><u>June 4</u></p>
       <p><u>June 4</u></p>
       <p>We repeated the experiment as we did not observe the yellow color  yesterday. We decreased the bacteria concentration and increased the amount of  pbs, the solution of the enzyme. We decided to observe the enzyme for 24 hours  as it did not the stop the enzyme. We would have the results at 12:32 tomorrow. </p>
       <p>We repeated the experiment as we did not observe the yellow color  yesterday. We decreased the bacteria concentration and increased the amount of  pbs, the solution of the enzyme. We decided to observe the enzyme for 24 hours  as it did not the stop the enzyme. We would have the results at 12:32 tomorrow. </p>
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       <p>We isolated the liquid cultures for control. The bands were not net, but  they seemed to be accurate. </p>
       <p>We isolated the liquid cultures for control. The bands were not net, but  they seemed to be accurate. </p>
       <p><u>June 9</u></p>
       <p><u>June 9</u></p>
-
       <img src="https://static.igem.org/mediawiki/2014hs/d/d1/09.06.14_2.jpg" width="300" height="250"/>
+
       <img src="https://static.igem.org/mediawiki/2014hs/d/d1/09.06.14_2.jpg" width="650" height="600"/>
       <p>We performed isolation, digestion and electrophoresis to the liquid  cultures that were put from the transformed samples of T10 and BL21. There was  no ladder; and we thought the bands were accurate as they were in the same  place. </p>
       <p>We performed isolation, digestion and electrophoresis to the liquid  cultures that were put from the transformed samples of T10 and BL21. There was  no ladder; and we thought the bands were accurate as they were in the same  place. </p>
       <p>We separated two blanks to check the values under spectrophotometer upon  the solution of BL liquid cultures with the pbs. The total volume: 6 ml. The  measurement times were minute zero, 1 hour, 2 hours, 3 hours and so on. The  measurement values 0: 260 abs, 1 h: 1300 abs, 2h: -140 3 h: 180</p>
       <p>We separated two blanks to check the values under spectrophotometer upon  the solution of BL liquid cultures with the pbs. The total volume: 6 ml. The  measurement times were minute zero, 1 hour, 2 hours, 3 hours and so on. The  measurement values 0: 260 abs, 1 h: 1300 abs, 2h: -140 3 h: 180</p>
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       <p>The backbone stopped. We performed ligation with the sample of BL21  liquid culture. We started the transformation. We took the plate at 8:17. We  realized that it did not work as there was no reducing agent of SpeB enzyme. We  chose mercaptoethanol as the reducing agent. Its molarity was not known. It  would be diluted to 50-100 mM. </p>
       <p>The backbone stopped. We performed ligation with the sample of BL21  liquid culture. We started the transformation. We took the plate at 8:17. We  realized that it did not work as there was no reducing agent of SpeB enzyme. We  chose mercaptoethanol as the reducing agent. Its molarity was not known. It  would be diluted to 50-100 mM. </p>
       <p><u>June 12</u></p>
       <p><u>June 12</u></p>
-
       <p>We directly used the mercaptoethanol as its morality was 100 Mm. We put 5% of the  total volume. However, we decreased the molarity to 5 mM according to the  m1.v1=m2.v2 formula. We worked with the well plate. Result: no yellow color. </p>
+
       <p>We directly used the mercaptoethanol as its molarity was 100 Mm. We put 5% of the  total volume. However, we decreased the molarity to 5 mM according to the  m1.v1=m2.v2 formula. We worked with the well plate. Result: no yellow color. </p>
 +
      <img src="https://static.igem.org/mediawiki/2014hs/8/82/120614_wiki.jpg"/>
       <p>We repeated the experiment with the accurate molarity. We calculated the  total volume as 10 ml (1 ml catechol). We prepared 9 ml pbs mercaptoethanol  mixture. It was incubated at 37 degree for 1 hour. Then, we put the catechol.  Result: no yellow color. We waited overnight. We poured it to an Amp plate. We  completed the transformation of the ligation sample. We took liquid cultures at  00:00. </p>
       <p>We repeated the experiment with the accurate molarity. We calculated the  total volume as 10 ml (1 ml catechol). We prepared 9 ml pbs mercaptoethanol  mixture. It was incubated at 37 degree for 1 hour. Then, we put the catechol.  Result: no yellow color. We waited overnight. We poured it to an Amp plate. We  completed the transformation of the ligation sample. We took liquid cultures at  00:00. </p>
       <p><u>June 13</u></p>
       <p><u>June 13</u></p>
-
       <p>We repeated the transformation as there was no bacteria in the liquid  cultures. We took the plates at 02:00. However, we did not expect any colonies. We made a mistake with the ligation and repeated it. We diluted the  mercaptoethanol to 100 mM  when we realized that the molarity of the mercaptoethanol was 14.3 M. We worked as 0  enzyme and 0.4 ul enzyme for control in the well plates to calculated the time  of enzyme. The measurement times were  0,  30 min, 1 h, 1.5 h, 2 h. We waited for these intervals and put catechol. The  results did not change that much, and there was no yellow color. </p>
+
       <p>We repeated the transformation as there was no bacteria in the liquid  cultures. We took the plates at 02:00. However, we did not expect any colonies. We made a mistake with the ligation and repeated it. We diluted the  mercaptoethanol to 100 mM  when we realized that the molarity of the mercaptoethanol was 14.3 M. We worked as 0  enzyme and 0.4 ul enzyme for control in the well plates to calculated the time  of enzyme. The measurement times were  0,  30 min, 1 h, 1.5 h, 2 h. We waited for these intervals and put catechol. The  results did not change that much, and there was no yellow color. </p>
       <p><u>June 14</u></p>
       <p><u>June 14</u></p>
-
       <p>We did the transformation of  BL21+Backbone &nbsp;sample that we&rsquo;ve done the ligation of. We solved the  liquid culture with 500 ul PBS and we added 500 ul mercaptoethanol.&nbsp; We  separated the liquid culture to four different epp and added different amounts  of enzyme. &nbsp;We incubated at 37 degree for an hour. We centrifuged the epps and transferred the supernatants to the well plate.&nbsp; We added catechol and  measured it at every 15 minutes. Result: we didn&rsquo;t get something new.</p>
+
       <p>We did the transformation of  BL21+Backbone &nbsp;sample that we&rsquo;ve done the ligation of. We solved the  liquid culture with 500 ul PBS and we added 500 ul mercaptoethanol.&nbsp; We  separated the liquid culture to four different epp and added different amounts  of enzyme. &nbsp;We incubated at 37 degree for an hour. We centrifuged the epps and transferred the supernatants to the well plate.&nbsp; We added catechol and  measured it at every 15 minutes. Result: we didn&rsquo;t get something new.</p>
       <p><u>June 15</u></p>
       <p><u>June 15</u></p>
       <p>We did the transformation again since  we haven&rsquo;t seen any colonies at plates. It revealed a colony &nbsp;at the old  plates and we prepared liquid culture. We did the isolation of it.</p>
       <p>We did the transformation again since  we haven&rsquo;t seen any colonies at plates. It revealed a colony &nbsp;at the old  plates and we prepared liquid culture. We did the isolation of it.</p>
       <p><u>June 1</u>6<u> </u><br />
       <p><u>June 1</u>6<u> </u><br />
-
         We did digestion and electrophoresis  of BB+BL isolation sample. We did the experiment again after we reduced the amount  of bacteria and increased the amount of enzyme. We measured the rates at  Varioskan. The experiment was repeated. At 6.20 pm, we&rsquo;ll take the plate. We  drew the graph of catechol, bacteria with enzyme and bacteria without enzyme at  200-600 nm.</p>
+
         We did digestion and electrophoresis  of Back Bone(pSB1C3)+Our Gene(BL) isolation sample. We did the experiment again after we reduced the amount  of bacteria and increased the amount of enzyme. We measured the rates at  Varioskan. The experiment was repeated. At 6.20 pm, we&rsquo;ll take the plate. We  drew the graph of catechol, bacteria with enzyme and bacteria without enzyme at  200-600 nm.</p>
       <p><u>June 17</u></p>
       <p><u>June 17</u></p>
 +
      <img src="https://static.igem.org/mediawiki/2014hs/8/8f/170614_sbep.png"/>
       <p>There were no colonies at plate. We  prepared four different epps.<br />
       <p>There were no colonies at plate. We  prepared four different epps.<br />
         1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+Catechol<br />
         1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+Catechol<br />
Line 349: Line 351:
         3.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Catechol<br />
         3.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Catechol<br />
         4.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;E.Coli+Catechol<br />
         4.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;E.Coli+Catechol<br />
-
         We scanned the samples at 200-600 nm  (we used spectrofotometre) and measured the rates of four different epps. We  observed a changing at the epps those contains E.Coli.<br />
+
         We scanned the samples at 200-600 nm  (we used spectrophotometer) and measured the rates of four different epps. We  observed a changing at the epps those contains E.Coli.<br />
         We prepared two contrivances to  understand what is the reason of this changing.<br />
         We prepared two contrivances to  understand what is the reason of this changing.<br />
         1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Compatent+PBS+Mercaptoethanol+Catechol<br />
         1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Compatent+PBS+Mercaptoethanol+Catechol<br />
Line 357: Line 359:
         1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+E.Coli+Mercaptoethanol+Catechol<br />
         1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+E.Coli+Mercaptoethanol+Catechol<br />
         2.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+E.Coli+0.6 ul enzyme+Catechol<br />
         2.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+E.Coli+0.6 ul enzyme+Catechol<br />
-
         3.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+E.Coli+0.6 ul enzyme+ Catechol+Mercaptoethanol<br />
+
         3.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;PBS+E.Coli+0.6 ul enzyme+Catechol+Mercaptoethanol<br />
         We  incubated the epps at 37 degree for an hour. There were no changing at the  graphs so when we saw them we thought our enzyme doesn&rsquo;t work. We increased the  amount of enzyme to 1.2 ul and did the experiment again. There weren&rsquo;t any  difference.</p>
         We  incubated the epps at 37 degree for an hour. There were no changing at the  graphs so when we saw them we thought our enzyme doesn&rsquo;t work. We increased the  amount of enzyme to 1.2 ul and did the experiment again. There weren&rsquo;t any  difference.</p>
       <p><u>June 18</u></p>
       <p><u>June 18</u></p>
-
       <p>The epps (the ones those used at  yesterdays experiment) were waited overnight. We observed a color changing and  measured the rates at spectrofotometre. Result: Although we didn&rsquo;t see yellow  color, there were changing at the graphs. The system is working.<br />
+
      <img src="https://static.igem.org/mediawiki/2014hs/3/37/180614_wiki.jpg"/>
-
         We did lizat experiment but we didn&rsquo;t  get the results because the lysis buffer wasn&rsquo;t working.</p>
+
       <p>The epps (the ones those used at  yesterdays experiment) were waited overnight. We observed a color changing and  measured the rates at spectrophotometer. Result: Although we didn&rsquo;t see yellow  color, there were changing at the graphs. The system is working.<br />
 +
         We did lysate experiment but we didn&rsquo;t  get the results because the lysis buffer wasn&rsquo;t working.</p>
 +
<p>&nbsp;</p>
       <p><u>June 19</u></p>
       <p><u>June 19</u></p>
       <p>It revealed a colony at one of the  old plates that we&rsquo;ve done transformation of. We prepared liquid culture. In  order to check whether our enzymes are working or not and also to control if  the proteins are producing, we made the SDS-PAGE. Our system is working.</p>
       <p>It revealed a colony at one of the  old plates that we&rsquo;ve done transformation of. We prepared liquid culture. In  order to check whether our enzymes are working or not and also to control if  the proteins are producing, we made the SDS-PAGE. Our system is working.</p>

Latest revision as of 03:47, 21 June 2014

(click the months)

SEPTEMBER

 

September 20

iGem introduction conference conducted to students in our School, NGSS_TR team forms were distrubuted.

 

OCTOBER

October 10

NGSS_TR Team forms were evaluated, 2014 team is formed. Very first meeting was done, team members were illuminated about their responsibilities in the team. Followings are distributed to help team members to learn genetics and synbiology:

  1. Idempotent Vector Design for Standart Assembly of Biobricks, Tom Knight, MIT Artificial Intelligence Laboratory
  2. Biology, Neil A. Campbell, California University
  3. Extreme Genetic Engineering, An Introduction to Synthetic Biology, etc, January 2007
  4. Bio Building Basics: A Conceptual Instruction Manual for Synthetic Biology, University of California San Francisco, May 2007
  5. BioBrik Standarts, InterTech
  6. Sythetic Biology: New Engineering Rules for an Emerging Discipline, Molecular Systems Biology, 2006
  7. Sythetic Biology for Artists and Designers, iGem ArtScience Team, 2009
  8. Foundations for Engineering Biology, Drew Endy, Nature, Vol:438, November 2005

October 15

Meeting was done to discuss and learn about Sythetic Biology. We decided to organize a ‘Kermes’ (sale of homemade foods) to fund our project.

October 27

Meeting was done to discuss and learn about Sythetic Biology.

NOVEMBER

November 9

First meeting with advisors from university was done.

November 19

First meeting in the university was done, project ideas were discussed. We decided to organize a ‘Kermes’ (sale of homemade foods) to fund our project.

November 28

Meetıng was done, team members chosed to specialize in the areas as following:

  1. F. Dilara Soylu: Head of team, project research, team game;
  2. Mariye Erol: Project research, visual modelling;
  3. Sevval Simsir: Video preparing
  4. Beril Gürdap: Project research, lab experiments;
  5. Asude Akça: Project research, math modelling;
  6. Azra Öztürk: Wiki
  7. Verda Kılınç: Photoshop
  8. Zeynep Bakır: Project research, math modelling;,

DECEMBER

December 6

Meeting with our advisor Fatma Betül Cevik was done, we discussed on our project ideas, some of them are provided below:

  1. Pressure activated promoter, barometer
  2. Synthetic rubber production
  3. Restraining the conjugation
  4. Cronometer bacteria
  5. Timing bacteria
  6. Air cleaning bacteria
  7. Hemoglobin bacteria

December 15

Meeting was done to keep track of the progresses of the teams members.

December 22

Meeting was done, new project ideas discussed.

 

JANUARY

January 11

Team decided on wiki design, activities to do in Jamboree discussed.

January 25

Our last meeting before the 2 week school break, project ideas discussed.

 

FEBRUARY

11 February

First meeting after the school break, project ideas discussed. We decided to organize a ‘Kermes’ (sale of homemade foods) to fund our project.

23 February

Progresses of team members on their specialized areas discussed.

 

MARCH

March 8

Project ideas discussed, we decided to research on three ideas to decide on our project.

March 15

Wiki templates prepared by Azra are discussed. We decided to organize a ‘Kermes’ (sale of homemade foods) to fund our project.

March 28

We learned about disadvantages of the rapid detection systems are used to detect S Pyogenes, bacteria causes several diseases. We narrowed down our researches.

APRIL

April 4

We decided to work on a system to detect S. Pyogenes.

April 15

Construction sequence was completed and the sequence is ready for synthesize!

MAY

May 7

Meeting was done to decide on our human practice works:

  1. Further on Project: Documentary to further explain our project.
  2. Beyond the Lab: Funny SynBio art activities
  3. Rock’n Twitter!: Twitter movement to introduce iGEM
  4. Colloborations: Colloborations were done with other iGEM teams

May 20

Our team member Dilara had asked Genovis about sponsorhip and they accepted to provide SpeB free of charge!

May 23

SpeB enzyme arrived to the lab. We bought our flight tickets to U.S.!

May 28

Our gene sequence has arrived, we started working on them.

We transformed the gene with two compatentcells. We put RFP as a control. We put liquid culture at 11:00.

May 29

We chose three colonies from both plates and put liquid cultures. We made transformation again against the contamination possibility as the colonies in T10 were small and the ones in BL21 were large. Result: No contamination.

May 30

We isolated six liquid cultures. We could not perform digestion as the value of third colony of T10 compatent cell was low in the nano-drop. We performed the digestion and electrophoresis of the other five samples. The bands were accurate.

May 31

We examined the values that the SpeB enzyme catechol was optimized.
We tweeted #iGem2014United hashtag by having a colloboration with other iGEM teams on the twitter.

 

JUNE

June 1

We prepared the catechol solution.

June 2

We renewed the liquid cultures.

June 3

We carried out SpeB exposure test. We prepared catechol solution (dilution). We diluted our enzyme. We carried out our experiment at the 96 well plates without any catechol and by increasing the SpeB for control. We observed the color change through hourly-controls.

June 4

We repeated the experiment as we did not observe the yellow color yesterday. We decreased the bacteria concentration and increased the amount of pbs, the solution of the enzyme. We decided to observe the enzyme for 24 hours as it did not the stop the enzyme. We would have the results at 12:32 tomorrow.

June 5

We put catechol to the cultures waiting overnight. We perform hourly-measurements. Result: no yellow color.

June 6

June 7

June 8

We isolated the liquid cultures for control. The bands were not net, but they seemed to be accurate.

June 9

We performed isolation, digestion and electrophoresis to the liquid cultures that were put from the transformed samples of T10 and BL21. There was no ladder; and we thought the bands were accurate as they were in the same place.

We separated two blanks to check the values under spectrophotometer upon the solution of BL liquid cultures with the pbs. The total volume: 6 ml. The measurement times were minute zero, 1 hour, 2 hours, 3 hours and so on. The measurement values 0: 260 abs, 1 h: 1300 abs, 2h: -140 3 h: 180

While the epp with catechol was black, the epp without catechol was white. This indicated that the system worked, but we had to clarify it.

June 10

We repeated the experiment by changing the variables. The solution was the pbs and the total volume was 9 ml. We put enzyme. The measurement times were 0, 30 min, 1 h, 1.5 h, 2 h. We used supernatants by centrifuging the mixture before the measurement. We waited for 15 minutes for reaction with the oxygen after putting catechol. We measured values under spectrophotometer. The values were 0: -0.068, 30 min: -0.135, 1 h: 0.050, 1.5 h: -0.050 and 2 h: 0.207.

June 11

The backbone stopped. We performed ligation with the sample of BL21 liquid culture. We started the transformation. We took the plate at 8:17. We realized that it did not work as there was no reducing agent of SpeB enzyme. We chose mercaptoethanol as the reducing agent. Its molarity was not known. It would be diluted to 50-100 mM.

June 12

We directly used the mercaptoethanol as its molarity was 100 Mm. We put 5% of the total volume. However, we decreased the molarity to 5 mM according to the m1.v1=m2.v2 formula. We worked with the well plate. Result: no yellow color.

We repeated the experiment with the accurate molarity. We calculated the total volume as 10 ml (1 ml catechol). We prepared 9 ml pbs mercaptoethanol mixture. It was incubated at 37 degree for 1 hour. Then, we put the catechol. Result: no yellow color. We waited overnight. We poured it to an Amp plate. We completed the transformation of the ligation sample. We took liquid cultures at 00:00.

June 13

We repeated the transformation as there was no bacteria in the liquid cultures. We took the plates at 02:00. However, we did not expect any colonies. We made a mistake with the ligation and repeated it. We diluted the mercaptoethanol to 100 mM when we realized that the molarity of the mercaptoethanol was 14.3 M. We worked as 0 enzyme and 0.4 ul enzyme for control in the well plates to calculated the time of enzyme. The measurement times were  0, 30 min, 1 h, 1.5 h, 2 h. We waited for these intervals and put catechol. The results did not change that much, and there was no yellow color.

June 14

We did the transformation of BL21+Backbone  sample that we’ve done the ligation of. We solved the liquid culture with 500 ul PBS and we added 500 ul mercaptoethanol.  We separated the liquid culture to four different epp and added different amounts of enzyme.  We incubated at 37 degree for an hour. We centrifuged the epps and transferred the supernatants to the well plate.  We added catechol and measured it at every 15 minutes. Result: we didn’t get something new.

June 15

We did the transformation again since we haven’t seen any colonies at plates. It revealed a colony  at the old plates and we prepared liquid culture. We did the isolation of it.

June 16
We did digestion and electrophoresis of Back Bone(pSB1C3)+Our Gene(BL) isolation sample. We did the experiment again after we reduced the amount of bacteria and increased the amount of enzyme. We measured the rates at Varioskan. The experiment was repeated. At 6.20 pm, we’ll take the plate. We drew the graph of catechol, bacteria with enzyme and bacteria without enzyme at 200-600 nm.

June 17

There were no colonies at plate. We prepared four different epps.
1.      PBS+Catechol
2.      PBS+E.Coli+Catechol
3.      Catechol
4.      E.Coli+Catechol
We scanned the samples at 200-600 nm (we used spectrophotometer) and measured the rates of four different epps. We observed a changing at the epps those contains E.Coli.
We prepared two contrivances to understand what is the reason of this changing.
1.      Compatent+PBS+Mercaptoethanol+Catechol
2.      Recombinant bacterium+PBS+Mercaptoethanol+Catechol
We measured the rates at 200-600 nm. The graphs are different.
Then, we wanted to check our enzyme is working or not. We prepared 3 epps.
1.      PBS+E.Coli+Mercaptoethanol+Catechol
2.      PBS+E.Coli+0.6 ul enzyme+Catechol
3.      PBS+E.Coli+0.6 ul enzyme+Catechol+Mercaptoethanol
We incubated the epps at 37 degree for an hour. There were no changing at the graphs so when we saw them we thought our enzyme doesn’t work. We increased the amount of enzyme to 1.2 ul and did the experiment again. There weren’t any difference.

June 18

The epps (the ones those used at yesterdays experiment) were waited overnight. We observed a color changing and measured the rates at spectrophotometer. Result: Although we didn’t see yellow color, there were changing at the graphs. The system is working.
We did lysate experiment but we didn’t get the results because the lysis buffer wasn’t working.

 

June 19

It revealed a colony at one of the old plates that we’ve done transformation of. We prepared liquid culture. In order to check whether our enzymes are working or not and also to control if the proteins are producing, we made the SDS-PAGE. Our system is working.