Team:BYU Provo/Notebook/Auxotrophy/febapr

From 2014.igem.org

(Difference between revisions)
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<h2 style="003468">Week of March 9th</h2>
+
<h2 style="003468">Week of March 16th</h2>
<h3>March 12, 2014</h3>
<h3>March 12, 2014</h3>
<p>--CB TR-- Researched possible kill switch options for <i>N. multiformis</i>. Focused on the environment of the bio-reactor to control spread of <i>N. multiformis</i>.</p>
<p>--CB TR-- Researched possible kill switch options for <i>N. multiformis</i>. Focused on the environment of the bio-reactor to control spread of <i>N. multiformis</i>.</p>
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<h2>Week of March 16th</h2>  
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<h2>Week of March 23rd</h2>  
<h3>March 17, 2014</h3>
<h3>March 17, 2014</h3>
<p>--CB TR-- Researched articles on the environment of waste water treatment plants and the possible genes we could knock out to prepare for our presentation on <i>N.multiformis</i> metabolism optimization.
<p>--CB TR-- Researched articles on the environment of waste water treatment plants and the possible genes we could knock out to prepare for our presentation on <i>N.multiformis</i> metabolism optimization.
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<p></p>
<p></p>
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<h2>Week of March 23rd, 2014</h2>
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<h2>Week of March 27th, 2014</h2>
<h3>March 24, 2014</h3>
<h3>March 24, 2014</h3>
<p></p>
<p></p>
-
<p>--CB TR-- Continued researching auxtrophy ideas.</p>
+
<p>--CB TR-- Continued researching auxotrophy ideas.</p>
<h3>March 26, 2014</h3>
<h3>March 26, 2014</h3>
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<p></p>
<p></p>
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<h2>Week of March 27th</h2>
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<h2>Week of April 5th</h2>
<h3>March 31, 2014</h3>
<h3>March 31, 2014</h3>
-
<p></p>
+
<p>Drafted an email to send to NEB in order to obtain the HindIII RM genes to put into N. multiformis for prevention of lateral gene transfer.</p>
 +
<p>http://blast.ncbi.nlm.nih.gov/Blast.cgi#alnHdr_490282362 : We did a protein BLAST of the gene immediately downstream from the Nmul_A0428(serA) gene and found that is most likely involved in UDP-glucose epimerase production.  We could find evidence either way for how vital it is for life of the cell, so we don’t want to include our own promoter on the gene we insert using homologous recombination in case that messes up the cell and causes loss of viability.</p>
 +
<p>Homologous Recombination primers:</p>
 +
<p>Forward - ATGAACAAACTTGCGATTTCCACCTCGTCATTCGATGTCAGCCATAATAG + 20-25bp Promoter,SD,amp gene sequence</p>
 +
<p>Reverse - 20-25bp amp gene complement + TTAACCTTTTTCCATTACACCGGCTTCGATCAATCCGCGCACCAGATTTT
 +
</p>
<h3>April 1, 2014</h3>
<h3>April 1, 2014</h3>
-
<p></p>
+
<p>Dr. Grose received an email back from the NEB representative for our area which said we could get the requested plasmid if we filled out a Materials Transfer Agreement.  We decided that since we wouldn’t be able to put our work in the iGEM registry, and we should have all of our genes in the chromosome, that we are just going to forget about the lateral gene transfer prevention.</p>
<h3>April 2, 2014</h3>
<h3>April 2, 2014</h3>
-
<p></p>
+
<p>Because we are not going to be able to include our own promoter, we have decided against switching the serA gene with a gene we would need to put in anyway.  Instead we are going to use an FRT protocol to just knock out the gene and then use a flippase get rid of the in between nucleotides.</p>
-
 
+
<p>http://www.ncbi.nlm.nih.gov/nuccore/NC_007614.1?report=fasta&from=474841&to=476072&strand=true : This is the Nmul_A0428 gene with 50bp up and downstream of the start and stop codons.
-
<h3>April 3, 2014</h3>
+
</p>
-
<p></p>
+
<h3>April 4, 2014</h3>
<h3>April 4, 2014</h3>
-
<p></p>
+
<p>http://rothlab.ucdavis.edu/protocols/frt-rules.html : Looked over the FRT primer design from Rothlabs at UC Davis</p>
<h2>Week of April 12th, 2014</h2>
<h2>Week of April 12th, 2014</h2>
<h3> April 7, 2014</h3>
<h3> April 7, 2014</h3>
-
<p></p>
+
<p>Worked on our circuit design for making N multiformis auxotrophic for serine.  Finalized the primer designs for our recombinase.  After we have inserted the amp resistance in place of the serA gene into the chromosome, we can add a flippase to the cells, which will cut out the amp gene.</p>
-
<h3>April 9, 2014</h3>
+
<h3>April 8, 2014</h3>
-
<p></p>
+
<p>Finalized our circuit design for Wednesday.  Finished finding and inserting protocols for each of the steps we are going through.</p>
 +
 +
<h3> April 9, 2014</h3>
 +
<p>Transformed two promoters (J23115 and J23116) into DH5α E. coli by heat shock transformation.  Took 3ul purified plasmid into 25ul DH5α competent cells.  Kept on ice for 5 min, heat shock at 42˚C for 1 min, ice for 3 min.  Added 500ul LB, incubate by aeration at 37˚C for 45 min.  Plate all 500ul and incubate overnight at 37˚C.  We are testing 20 different promoters from the iGEM Registry to see the activity level of each in order to decide what promoters will be bet to use for the different parts of our project.</p>
<h3> April 11, 2014</h3>
<h3> April 11, 2014</h3>
-
<p></p>
+
<p>Performed a plasmid prep of the promoter plasmids we transformed into E coli on Wednesday.  Broke into groups of 2 and each group did 3 samples.</p>
<h2>Week of April 19th</h2>
<h2>Week of April 19th</h2>

Revision as of 16:53, 16 October 2014


BYU 2014 Notebook

Edit February April

Home Team Official Team Profile Project Parts Modeling Notebook Safety Attributions

Week of March 16th

March 12, 2014

--CB TR-- Researched possible kill switch options for N. multiformis. Focused on the environment of the bio-reactor to control spread of N. multiformis.

Originally we considered designing a trigger that is specific to the environment of the bioreactor that, when removed from the environment would express a gene that would kill the bacteria. However we realized that such a design would be problematic due to the high mutation rate of N. multiformis.

Week of March 23rd

March 17, 2014

--CB TR-- Researched articles on the environment of waste water treatment plants and the possible genes we could knock out to prepare for our presentation on N.multiformis metabolism optimization.

Focused our efforts on a unique gene knock out that would make N. multiformis reliant on the environment of the bio-reactor to grow.

March 18, 2014

--CB TR-- Reviewed all of our literature findings so far. In doing so, identified the specific focuses for our group: inserting the denitrification genes into N. multiformis, making N. multiformis more resistant to pH changes, and making N. multiformis more resistant to heavy metals.

March 19, 2014

--CB TR-- Presented our ideas for improving the metabolism of N. multiformis and received feedback from the class on them. Confirmed plan to insert the denitrification pathway into N. multiformis. Decided to forego other original goals and instead insert genes that would break down antibiotics.

March 20, 2014

March 21, 2014

Week of March 27th, 2014

March 24, 2014

--CB TR-- Continued researching auxotrophy ideas.

March 26, 2014

March 28, 2014

Week of April 5th

March 31, 2014

Drafted an email to send to NEB in order to obtain the HindIII RM genes to put into N. multiformis for prevention of lateral gene transfer.

http://blast.ncbi.nlm.nih.gov/Blast.cgi#alnHdr_490282362 : We did a protein BLAST of the gene immediately downstream from the Nmul_A0428(serA) gene and found that is most likely involved in UDP-glucose epimerase production. We could find evidence either way for how vital it is for life of the cell, so we don’t want to include our own promoter on the gene we insert using homologous recombination in case that messes up the cell and causes loss of viability.

Homologous Recombination primers:

Forward - ATGAACAAACTTGCGATTTCCACCTCGTCATTCGATGTCAGCCATAATAG + 20-25bp Promoter,SD,amp gene sequence

Reverse - 20-25bp amp gene complement + TTAACCTTTTTCCATTACACCGGCTTCGATCAATCCGCGCACCAGATTTT

April 1, 2014

Dr. Grose received an email back from the NEB representative for our area which said we could get the requested plasmid if we filled out a Materials Transfer Agreement. We decided that since we wouldn’t be able to put our work in the iGEM registry, and we should have all of our genes in the chromosome, that we are just going to forget about the lateral gene transfer prevention.

April 2, 2014

Because we are not going to be able to include our own promoter, we have decided against switching the serA gene with a gene we would need to put in anyway. Instead we are going to use an FRT protocol to just knock out the gene and then use a flippase get rid of the in between nucleotides.

http://www.ncbi.nlm.nih.gov/nuccore/NC_007614.1?report=fasta&from=474841&to=476072&strand=true : This is the Nmul_A0428 gene with 50bp up and downstream of the start and stop codons.

April 4, 2014

http://rothlab.ucdavis.edu/protocols/frt-rules.html : Looked over the FRT primer design from Rothlabs at UC Davis

Week of April 12th, 2014

April 7, 2014

Worked on our circuit design for making N multiformis auxotrophic for serine. Finalized the primer designs for our recombinase. After we have inserted the amp resistance in place of the serA gene into the chromosome, we can add a flippase to the cells, which will cut out the amp gene.

April 8, 2014

Finalized our circuit design for Wednesday. Finished finding and inserting protocols for each of the steps we are going through.

April 9, 2014

Transformed two promoters (J23115 and J23116) into DH5α E. coli by heat shock transformation. Took 3ul purified plasmid into 25ul DH5α competent cells. Kept on ice for 5 min, heat shock at 42˚C for 1 min, ice for 3 min. Added 500ul LB, incubate by aeration at 37˚C for 45 min. Plate all 500ul and incubate overnight at 37˚C. We are testing 20 different promoters from the iGEM Registry to see the activity level of each in order to decide what promoters will be bet to use for the different parts of our project.

April 11, 2014

Performed a plasmid prep of the promoter plasmids we transformed into E coli on Wednesday. Broke into groups of 2 and each group did 3 samples.

Week of April 19th

April 14, 2014

Week of April 26th

April 21, 2014

Our team prepared a semester final on our N.multiformis Serine Auxotrophy Process.