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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Transformations of the biobricks K133071, K173003 and I13453 are performed. K133071 will produce CO2 if there's pyruvate present and K173003 will produce CO2 if urea is present. I13453 is a promotor which will work if there's arabinose present. <br> | <div class="description"><p>Transformations of the biobricks K133071, K173003 and I13453 are performed. K133071 will produce CO2 if there's pyruvate present and K173003 will produce CO2 if urea is present. I13453 is a promotor which will work if there's arabinose present. <br> | ||
The biobricks were transformed first into electrocometent cells and later into chemical competent cells from the strain NEb10Beta. After transformations the culture was plated on agar plates with antibiotics. The first transformations didn't work out, but the second did, because then the right competent cells were used. </p> | The biobricks were transformed first into electrocometent cells and later into chemical competent cells from the strain NEb10Beta. After transformations the culture was plated on agar plates with antibiotics. The first transformations didn't work out, but the second did, because then the right competent cells were used. </p> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>To be able to always get the necessary biobricks, there have been made glycerolstocks of the transformed biobricks K133071, K173003 and I13453. The glycerolstocks are stored at -80 degrees Celsius. If needed, they can be retrieved from this storage to use for experiments. </p> | <div class="description"><p>To be able to always get the necessary biobricks, there have been made glycerolstocks of the transformed biobricks K133071, K173003 and I13453. The glycerolstocks are stored at -80 degrees Celsius. If needed, they can be retrieved from this storage to use for experiments. </p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>For further experiments there is isolated DNA needed of the biobricks J23100, K133071, K173003 and I134353. The DNA is isolated out of the bacteria with the help of a plasmid purifaction kit. After isolation this DNA can be used for digestion and ligation or other experiments. <span style="font-size:12px;">J23100 (from the glycerolstock): 325,59 ng/ul, K173003: 217,06 ng/ul, K133071: 186,79 ng/ul, </span>I13453: 88,18 ng/ul</p> | <div class="description"><p>For further experiments there is isolated DNA needed of the biobricks J23100, K133071, K173003 and I134353. The DNA is isolated out of the bacteria with the help of a plasmid purifaction kit. After isolation this DNA can be used for digestion and ligation or other experiments. <span style="font-size:12px;">J23100 (from the glycerolstock): 325,59 ng/ul, K173003: 217,06 ng/ul, K133071: 186,79 ng/ul, </span>I13453: 88,18 ng/ul</p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>The biobricks J23100, K133071, K173003 and I134353 were sucessfully digested after the second time. After the digestions the biobricks K133071 and K173003 were dephosphorylated and ligated with the inserts J23100 and I13453. This was done in the original backbone of K133071 and K173003, and not another control backbone. To know if the biobricks were right ligated this was done by testing practically. See the experiments: <em>Testing gas production.</em> </p> | <div class="description"><p>The biobricks J23100, K133071, K173003 and I134353 were sucessfully digested after the second time. After the digestions the biobricks K133071 and K173003 were dephosphorylated and ligated with the inserts J23100 and I13453. This was done in the original backbone of K133071 and K173003, and not another control backbone. To know if the biobricks were right ligated this was done by testing practically. See the experiments: <em>Testing gas production.</em> </p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Transformations of the biobricks (K133071 + J23100), (K13071 + I1345), (K173003 + J23100) and (K173003 + I13453) in NEB10B�ta. There was no grow except for the biobrick combination K133071 + J23100.</p> | <div class="description"><p>Transformations of the biobricks (K133071 + J23100), (K13071 + I1345), (K173003 + J23100) and (K173003 + I13453) in NEB10B�ta. There was no grow except for the biobrick combination K133071 + J23100.</p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>A colony PCR is done for the NEB10B�ta E.coli cells with expected the biobrick combination of K133071 with J23100. Nevertheless, on a gel the difference with and without promotor couldn't be seen. So there must be another way of proving the right biobricks are there.</p> | <div class="description"><p>A colony PCR is done for the NEB10B�ta E.coli cells with expected the biobrick combination of K133071 with J23100. Nevertheless, on a gel the difference with and without promotor couldn't be seen. So there must be another way of proving the right biobricks are there.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description">The ligations and transformations of the biobricks K173003 + J23100, K173003 + I13453, and K133071 + I13453 has been performed again. There was a lot of grow on the agar plates. To know if the biobricks were right ligated this was done by testing practically. See the experiments: <em>Testing gas production.</em> </div> | <div class="description">The ligations and transformations of the biobricks K173003 + J23100, K173003 + I13453, and K133071 + I13453 has been performed again. There was a lot of grow on the agar plates. To know if the biobricks were right ligated this was done by testing practically. See the experiments: <em>Testing gas production.</em> </div> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Minipreps are made of colonies 11 and 19 of biobrick combination K133071 + J23100. Results: 11. 270,57 ng/ul 19. 253,59 ng/ul.</p> | <div class="description"><p>Minipreps are made of colonies 11 and 19 of biobrick combination K133071 + J23100. Results: 11. 270,57 ng/ul 19. 253,59 ng/ul.</p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>A miniprep of the biobrick K352002 is made. The concentration is 69,77 ng/ul.</p> | <div class="description"><p>A miniprep of the biobrick K352002 is made. The concentration is 69,77 ng/ul.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Digestions, gelelectrophoresis, dephosphorylations and ligations of different biobrick combinations. These biobrick combinations are 4 different promotors (J23100, I13453, K352002, K352003) with 4 different gasproduction biobricks (k173003, K173013, K133071, K133116). J23100 is about 1 kb to long. The rest seems likely to be right digested. The ligations will be transformed in NEB10b�ta and digested again as control.</p> | <div class="description"><p>Digestions, gelelectrophoresis, dephosphorylations and ligations of different biobrick combinations. These biobrick combinations are 4 different promotors (J23100, I13453, K352002, K352003) with 4 different gasproduction biobricks (k173003, K173013, K133071, K133116). J23100 is about 1 kb to long. The rest seems likely to be right digested. The ligations will be transformed in NEB10b�ta and digested again as control.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Transformations of the biobrick combinations in NEB10b�ta. The transformations are plated on kanamycine agar plates, because all the ligations were done in pSB1K3 (kanamycine resistence) backbone. Pink and with colonies appeared after incubation by 37 degrees Celcius for about 12h. The white colonies will be used for further experiments.</p> | <div class="description"><p>Transformations of the biobrick combinations in NEB10b�ta. The transformations are plated on kanamycine agar plates, because all the ligations were done in pSB1K3 (kanamycine resistence) backbone. Pink and with colonies appeared after incubation by 37 degrees Celcius for about 12h. The white colonies will be used for further experiments.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Plasmid DNA was isolated of 20 different colonies. The first time something went wrong. The second time we had good concentrations of isolated plasmid DNA. After this we will digest the DNA to see if the plasmids all have the required biobricks. The tube have a code from now on, see table 1.<br> | <div class="description"><p>Plasmid DNA was isolated of 20 different colonies. The first time something went wrong. The second time we had good concentrations of isolated plasmid DNA. After this we will digest the DNA to see if the plasmids all have the required biobricks. The tube have a code from now on, see table 1.<br> | ||
</p> | </p> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>The minipreps of experiment 12 are digested with the restriction enzymes: SmaI and ScaI. Only Sca and Sma are both incubated at 37 degrees Celcius. Sma has to be incubated at 25 degrees Celcius. This is done in experiment 15.</p> | <div class="description"><p>The minipreps of experiment 12 are digested with the restriction enzymes: SmaI and ScaI. Only Sca and Sma are both incubated at 37 degrees Celcius. Sma has to be incubated at 25 degrees Celcius. This is done in experiment 15.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Digestions have been done of the biobrickcombinations K352002 +K133116 + pSB1K3 and K352003 + K133116 + pSB1K3 with restriction-enzymes ScaI and SmaI</p> | <div class="description"><p>Digestions have been done of the biobrickcombinations K352002 +K133116 + pSB1K3 and K352003 + K133116 + pSB1K3 with restriction-enzymes ScaI and SmaI</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>All the digestions of experiment 13 have digested again with SmaI for an our at 25 degrees Celcius. Because earlier the digestions have been put immediately bt 37 degrees Celcius. It looks like H1, J1 and D2 include the right biobricks. </p> | <div class="description"><p>All the digestions of experiment 13 have digested again with SmaI for an our at 25 degrees Celcius. Because earlier the digestions have been put immediately bt 37 degrees Celcius. It looks like H1, J1 and D2 include the right biobricks. </p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Minipreps of the biobrick combinations: K352002+K133116+pSB1K3 (1) and K352003+K133116+pSB1K3 (2) are done. The DNA concentration is for 1:189,3 ng/�l and for 2: 355,3 ng/�l.</p> | <div class="description"><p>Minipreps of the biobrick combinations: K352002+K133116+pSB1K3 (1) and K352003+K133116+pSB1K3 (2) are done. The DNA concentration is for 1:189,3 ng/�l and for 2: 355,3 ng/�l.</p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description">32 minipreps have been performed. A lot of them have a low concentration nucleic acid and/or have a high 260/280 and 260/230 rate. Therefore those will be done again.</div> | <div class="description">32 minipreps have been performed. A lot of them have a low concentration nucleic acid and/or have a high 260/280 and 260/230 rate. Therefore those will be done again.</div> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Making overnight cultures of the numbers: A1, A4, A5, A6, B1, B5, B6 C1, C2, C3, C4, C5, C6, E1, E2, E5, E6, F4, F5 with Kanamycin. These biobrick combinations can be found in experiment 12. Also the first digestions with XbaI, Eco0109I, HindIII and SspI-HF have been done.</p> | <div class="description"><p>Making overnight cultures of the numbers: A1, A4, A5, A6, B1, B5, B6 C1, C2, C3, C4, C5, C6, E1, E2, E5, E6, F4, F5 with Kanamycin. These biobrick combinations can be found in experiment 12. Also the first digestions with XbaI, Eco0109I, HindIII and SspI-HF have been done.</p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Minipreps have been made of the numbers: A1, A4, A5, A6, B1, B5, B6 C1, C2, C3, C4, C5, C6, E1, E2, E5, E6, F4, F5.</p> | <div class="description"><p>Minipreps have been made of the numbers: A1, A4, A5, A6, B1, B5, B6 C1, C2, C3, C4, C5, C6, E1, E2, E5, E6, F4, F5.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>From 27-09 until 04-10 more than 200 digestions and 17 gelelectrophoresis have been performed. This was done as a control for our composite parts. We digested with XbaI, Eco01019 and SspI-HF/HindIII. Every restriction-enzyme has an unique place to cut in our constructs. With this we could test if the promoter, backbone and gas production gene was present. However, the digestions didn't show us very good results. After this we started with PCR.</p> | <div class="description"><p>From 27-09 until 04-10 more than 200 digestions and 17 gelelectrophoresis have been performed. This was done as a control for our composite parts. We digested with XbaI, Eco01019 and SspI-HF/HindIII. Every restriction-enzyme has an unique place to cut in our constructs. With this we could test if the promoter, backbone and gas production gene was present. However, the digestions didn't show us very good results. After this we started with PCR.</p> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p></p></div> | <div class="description"><p></p></div> | ||
</div> | </div> | ||
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</div> | </div> | ||
− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p>Digestions with EcoRI-HF and PstI are done for the biobrick numbers A2, B1, B5, B6, D1, E1, E3, I1, J1, J1.2, CooA (8) and pSB1C3. This is done because now the Kanamycin backbone can be replaced for the Chloramphenicol backbone. This is done by dephosphorylation and ligation.</p> | <div class="description"><p>Digestions with EcoRI-HF and PstI are done for the biobrick numbers A2, B1, B5, B6, D1, E1, E3, I1, J1, J1.2, CooA (8) and pSB1C3. This is done because now the Kanamycin backbone can be replaced for the Chloramphenicol backbone. This is done by dephosphorylation and ligation.</p> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p></p></div> | <div class="description"><p></p></div> | ||
</div> | </div> | ||
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
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− | <div class="attendees"> | + | <div class="attendees">Elise Grootscholten | Randall de Waard</div> |
<div class="description"><p></p></div> | <div class="description"><p></p></div> | ||
</div> | </div> |
Revision as of 10:33, 12 October 2018
Notebook
Notebook
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May 10
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May 28
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May 29
Main page
June 7
Team
June 9
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June 9
Header
June 10
Construction pages
June 13
Header
June 14
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June 14
Architecture design [TC]
June 18
Human Practices page
June 22
Main page
June 23
Architecture design [TC]
June 24
First prototype [TC]
June 25
Team
June 26
Second prototype [TC]
June 26
Table 1 : Resuspended BioBricks from the iGEM 2018 Distribution kit and their uses.
BBa_K592009 | Blue Chromoprotein AmilCP |
BBa_B0031 | Ribosomal binding site (strong), derived from BBa_B0030 |
BBa_B0032 | Ribosomal binding site (medium), derived from BBa_B0030 |
BBa_B0030 | Ribosomal binding site (weak) |
BBa_B0015 | Double terminator (BBa_B0010 & BBa_B0012) |
BBa_J23100 | Strong Constitutive Anderson Promotor |
BBa_J23105 | Medium Constitutive Anderson Promotor |
BBa_J23113 | Weak Constitutive Anderson Promotor |
BBa_J45199 | Banana odor enzyme (ATF1) generator |
BBa_K1184000 | Killer Red |
BBa_K352001 | CooA |
BBa_K352011 | CooA responsive system |
After checking the plates on the 28th of June, we recieved the following results (Table 2):
Table 2 : Kolonies found after overnight growth.
BBa_K592009 | 20 colonies |
BBa_B0031 | 4 colonies |
BBa_B0032 | 5 colonies |
BBa_B0030 | 1 colonies |
BBa_B0015 | 6 colonies |
BBa_J23100 | 1 colonies |
BBa_J23105 | 98 colonies |
BBa_J23113 | 19 colonies |
BBa_J45199 | 0 colonies |
BBa_K1184000 | 4 colonies |
BBa_K352001 | 2 colonies |
BBa_K352011 | 4 colonies |
Assessing CooA Production
June 26
Testrun [TC]
June 27
After making a 20 mL overnight culture of our NEB 10 b�ta cells containing our BioBricks, we performed a mini prep (Protocol 3). Using our nanodrop spectrophotometer which gave us the following DNA concentrations:
BBa_K592009 | 72,5 ng/�L |
BBa_B0031 | 118,9 ng/�L |
BBa_B0032 | 52,5 ng/�L |
BBa_B0030 | 488,6 ng/�L |
BBa_B0015 | 53,5 ng/�L |
BBa_J23100 | 148,3 ng/�L |
BBa_J23105 | 96,3 ng/�L |
BBa_J23113 | 151,8 ng/�L |
BBa_K118400 | 140,4 ng/�L |
BBa_K352001 | 77,7 ng/�L |
BBa_K352011 | 76,8 ng/�L |
After assessign our results, in the future we will perform the ethanol carry-over steps.
Also from the previously mentioned overnight culture 1 mL has been used to make Glycerol Stock (Protocol 4)
Assessing CooA Production
June 29
Draft decision
July 2
Today we performed a digestion, dephosphorilation and ligation (following protocols 4 and 5) of a few promotor and RBS BioBricks. Because of administrative compliations only the variants with J23113 and a RBS could be made.
Assessing CooA Production
July 2
Architecture design [TC]
July 5
Electrical circuit design [TC]
July 8
Electrical circuit design [TC]
July 9
Electrical circuit design [TC]
July 11
Stock up
July 11
Basic parts
July 11
Board layout [TC]
July 12
Basic parts
July 12
Board layout [TC]
July 13
Basic parts
July 13
Blue White screening on paper
July 13
Board layout [TC]
July 15
Basic parts
July 16
Blue White screening on paper
July 16
Notebook
July 17
Basic parts
July 17
Stock up
July 18
Notebook
July 19
Basic parts
July 19
Notebook
July 21
Transformations of the biobricks K133071, K173003 and I13453 are performed. K133071 will produce CO2 if there's pyruvate present and K173003 will produce CO2 if urea is present. I13453 is a promotor which will work if there's arabinose present.
The biobricks were transformed first into electrocometent cells and later into chemical competent cells from the strain NEb10Beta. After transformations the culture was plated on agar plates with antibiotics. The first transformations didn't work out, but the second did, because then the right competent cells were used.
Assessing Gas Production BioBricks in E.Coli
July 23
ATP sensor
July 24
Gas output
July 24
Notebook generator
July 24
Today we did a transformation with new biobricks. The biobricks were built into chemically competent cells from the strain NEb10Beta. After transformation the culture was plated on agar plates with antibiotics. The results were checked the next day.
Transformation
July 24
To be able to always get the necessary biobricks, there have been made glycerolstocks of the transformed biobricks K133071, K173003 and I13453. The glycerolstocks are stored at -80 degrees Celsius. If needed, they can be retrieved from this storage to use for experiments.
Assessing Gas Production BioBricks in E.Coli
July 24
Notebook generator
July 25
Google Drive API
July 25
Automatic uploader
July 25
To be able to always get the necessary biobricks, we made an glycerol stock after every transformation. The glycerol stocks are stored at -80 degrees Celsius. If needed, they can retrieved from this storage to use for experiments.
Transformation
July 27
For further experiments there is isolated DNA needed of the biobricks J23100, K133071, K173003 and I134353. The DNA is isolated out of the bacteria with the help of a plasmid purifaction kit. After isolation this DNA can be used for digestion and ligation or other experiments. J23100 (from the glycerolstock): 325,59 ng/ul, K173003: 217,06 ng/ul, K133071: 186,79 ng/ul, I13453: 88,18 ng/ul
Assessing Gas Production BioBricks in E.Coli
July 27
Automation program
July 29
Automatic uploader
July 29
Page generator
July 31
Google Drive API
July 31
Automation program
July 31
Automation program
August 1
Notebook
August 2
For further experiments we needed isolated DNA. The DNA is isolated out of the bacteria with the help of a plasmid purifaction kit. After isolation this DNA can be used for digestion and ligation or other experiments.
Transformation
August 9
The biobricks J23100, K133071, K173003 and I134353 were sucessfully digested after the second time. After the digestions the biobricks K133071 and K173003 were dephosphorylated and ligated with the inserts J23100 and I13453. This was done in the original backbone of K133071 and K173003, and not another control backbone. To know if the biobricks were right ligated this was done by testing practically. See the experiments: Testing gas production.
Assessing Gas Production BioBricks in E.Coli
August 10
Testing different amounts of urea and sodiumpyruvate to know which concentrations the bacteria survive.
Urea and sodium pyruvate test for resistance E.coli
August 10
Transformations of the biobricks (K133071 + J23100), (K13071 + I1345), (K173003 + J23100) and (K173003 + I13453) in NEB10B�ta. There was no grow except for the biobrick combination K133071 + J23100.
Assessing Gas Production BioBricks in E.Coli
August 13
A colony PCR is done for the NEB10B�ta E.coli cells with expected the biobrick combination of K133071 with J23100. Nevertheless, on a gel the difference with and without promotor couldn't be seen. So there must be another way of proving the right biobricks are there.
Assessing Gas Production BioBricks in E.Coli
August 13
Assessing Gas Production BioBricks in E.Coli
August 13
Making a set up for the gas production testing and testing it with NEB10B�ta with the expected biobricks in it (K133071 + J23100) and a negative control.
Testing gas production
August 16
Making a set up for the gas production testing and testing it with NEB10B�ta with the expected biobricks in it (K133071 + I13453), (K173003 + J23100), (K173003 + I13453) and a negative control.
Testing gas production
August 23
Gasproduction testing for the biobricks (K173003 + I13453), (K133071 + I13453) and negative controls (B0015 and K133071 without urea and arabinose).
K173003 + I13453 is tested with sodiumpyruvate and arabinose for gasproduction and K133071 + I13453 is tested with urea and arabinose for gasproduction.
The negative control also produces a little bit gas.
Testing gas production
August 23
Testing the gasproduction of the colonies 9 and 10 of biobricks (K173003 + J23100), colonies 5 and 7 of biobricks (K173003 + I13453) and colony 4 of biobricks (K133071 + I13453) with and without centrifuging the bacteria. There is also a negative control (J04450 pSB1K3) with Kanamycine. The negative contol started with a lot of gas inside the tube. We can not see wether there is produced more after a day or not. This have to be tested later.
Testing gas production
August 23
Minipreps are made of colonies 11 and 19 of biobrick combination K133071 + J23100. Results: 11. 270,57 ng/ul 19. 253,59 ng/ul.
Assessing Gas Production BioBricks in E.Coli
August 27
A miniprep of the biobrick K352002 is made. The concentration is 69,77 ng/ul.
Assessing Gas Production BioBricks in E.Coli
August 27
Testing different amounts of urea and sodiumpyruvate to know which concentrations the bacteria survive.
Urea and sodium pyruvate test for resistance E.coli
August 28
Chemo competent cells
August 30
Digestions, gelelectrophoresis, dephosphorylations and ligations of different biobrick combinations. These biobrick combinations are 4 different promotors (J23100, I13453, K352002, K352003) with 4 different gasproduction biobricks (k173003, K173013, K133071, K133116). J23100 is about 1 kb to long. The rest seems likely to be right digested. The ligations will be transformed in NEB10b�ta and digested again as control.
Assessing Gas Production BioBricks in E.Coli
September 7
Transformations of the biobrick combinations in NEB10b�ta. The transformations are plated on kanamycine agar plates, because all the ligations were done in pSB1K3 (kanamycine resistence) backbone. Pink and with colonies appeared after incubation by 37 degrees Celcius for about 12h. The white colonies will be used for further experiments.
Assessing Gas Production BioBricks in E.Coli
September 7
Plasmid DNA was isolated of 20 different colonies. The first time something went wrong. The second time we had good concentrations of isolated plasmid DNA. After this we will digest the DNA to see if the plasmids all have the required biobricks. The tube have a code from now on, see table 1.
Number | Promotor | Gene | Backbone |
A | K352002 (CooF) | K173013 | pSB1K3 |
B | K352002 (CooF) | K133071 | pSB1K3 |
C | K352002 (CooF) | K173003 | pSB1K3 |
D | K352003 (CooM) | K133071 | pSB1K3 |
E | K352003 (CooM) | K173003 | pSB1K3 |
F | K352003 (CooM) | K173013 | pSB1K3 |
H | I13453 | K173013 | pSB1K3 |
I | I13453 | K173003 | pSB1K3 |
J | II13453 | K133071 | pSB1K3 |
Table 1: list of biobricks of abbreviations
Assessing Gas Production BioBricks in E.Coli
September 11
The minipreps of experiment 12 are digested with the restriction enzymes: SmaI and ScaI. Only Sca and Sma are both incubated at 37 degrees Celcius. Sma has to be incubated at 25 degrees Celcius. This is done in experiment 15.
Assessing Gas Production BioBricks in E.Coli
September 11
Digestions have been done of the biobrickcombinations K352002 +K133116 + pSB1K3 and K352003 + K133116 + pSB1K3 with restriction-enzymes ScaI and SmaI
Assessing Gas Production BioBricks in E.Coli
September 13
All the digestions of experiment 13 have digested again with SmaI for an our at 25 degrees Celcius. Because earlier the digestions have been put immediately bt 37 degrees Celcius. It looks like H1, J1 and D2 include the right biobricks.
Assessing Gas Production BioBricks in E.Coli
September 14
Minipreps of the biobrick combinations: K352002+K133116+pSB1K3 (1) and K352003+K133116+pSB1K3 (2) are done. The DNA concentration is for 1:189,3 ng/�l and for 2: 355,3 ng/�l.
Assessing Gas Production BioBricks in E.Coli
September 17
Different strains of E.coli are tested as negative control. Those strains were: NEB10B�ta, BL21 (DE3), BL21, HB101, DH5alpha and JM109. NEB10B�ta produced the most gas. BL21, HB101 and JM101 produced none/almost none gas. Because BL21 isn't a K12 strain we can not use that one. That is why we will test further gasproduction in HB101 and JM109. And maybe those will be our final E.coli strains.
Testing gas production
September 17
Assessing Gas Production BioBricks in E.Coli
September 20
Making overnight cultures of the numbers: A1, A4, A5, A6, B1, B5, B6 C1, C2, C3, C4, C5, C6, E1, E2, E5, E6, F4, F5 with Kanamycin. These biobrick combinations can be found in experiment 12. Also the first digestions with XbaI, Eco0109I, HindIII and SspI-HF have been done.
Assessing Gas Production BioBricks in E.Coli
September 26
Minipreps have been made of the numbers: A1, A4, A5, A6, B1, B5, B6 C1, C2, C3, C4, C5, C6, E1, E2, E5, E6, F4, F5.
Assessing Gas Production BioBricks in E.Coli
September 27
From 27-09 until 04-10 more than 200 digestions and 17 gelelectrophoresis have been performed. This was done as a control for our composite parts. We digested with XbaI, Eco01019 and SspI-HF/HindIII. Every restriction-enzyme has an unique place to cut in our constructs. With this we could test if the promoter, backbone and gas production gene was present. However, the digestions didn't show us very good results. After this we started with PCR.
Assessing Gas Production BioBricks in E.Coli
September 27
Assessing Gas Production BioBricks in E.Coli
October 5
PCR
October 7
Digestions with EcoRI-HF and PstI are done for the biobrick numbers A2, B1, B5, B6, D1, E1, E3, I1, J1, J1.2, CooA (8) and pSB1C3. This is done because now the Kanamycin backbone can be replaced for the Chloramphenicol backbone. This is done by dephosphorylation and ligation.
Assessing Gas Production BioBricks in E.Coli
October 8
Assessing Gas Production BioBricks in E.Coli
October 11
Assessing Gas Production BioBricks in E.Coli
October 11
Assessing Gas Production BioBricks in E.Coli
October 11
Overnight cultures made of the following strains with the right plasmid:
Number | HB101 | JM109 |
J1 | 1x | 1x |
I1 | 3x | 3x |
D1 | 2x | 2x |
B1 | 1x | 1x |
B6 | 1x | 1x |
Table 1: Overnight culture scheme.