Team:Nevada/Notebook/Weeks14

From 2011.igem.org

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<font color=black><u><font size=4>Media</u></font><br>
<font color=black><u><font size=4>Media</u></font><br>
Bryson & Matt<br><br>
Bryson & Matt<br><br>
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The media group is responsible for creating the best possible co-cultivation system for E.coli and cyanobacteria. They are also responsible for creating a co-cultivation apparatus. <br>
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The media group is responsible for creating the best possible co-cultivation system for E.coli and cyanobacteria. They are also responsible for creating a co-cultivation apparatus.  
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<br><br><font size=4>
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<b> Description </b>:</font><br>
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<div id="descDef" style="text-align:justify;">
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BTE-Bay Laurel (Plant) thioesterase gene- produces 12 and 14 carbon medium chain fatty acids that can be converted to biofuels.
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<br><br>
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PDC/ADH- pyruvate decarboxylase/aldehyde dehydrogenase operon. This part can be used to produce ethanol. PDC converts pyruvate to acetaldehyde. Alcohol dehydrogenase can then turn acetaldehyde into ethanol.
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<br><br>
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ThiE-Thiamine E synthesizing gene in cyanobacteria. The enzyme is usually referred to as thiamine monophosphate pyrophosphorylase. Important for vitamin B synthesis in cyanobacteria. Knockout of this gene will allow for production of an auxotroph in cyanobacteria. <br>
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<br><br>
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sigma70 promoter- constitutive promoter in E.coli.
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<br><br>
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trc promoter- inducible promoter in E.coli. It is not sensitive to changes in glucose concentrations.
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<br><br>
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GLF- glucose facilitator gene responsible for transporting glucose out of the cyanobacteria.
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INV- invertase gene responsible for breaking down sucrose into glucose and fructose. Gene is from cyanobacteria.
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<a href="https://2011.igem.org/Team:Nevada/Notebook/Weeks58"><font size=4>Weeks 5-8</font></a>&nbsp;&nbsp;&nbsp;
<a href="https://2011.igem.org/Team:Nevada/Notebook/Weeks58"><font size=4>Weeks 5-8</font></a>&nbsp;&nbsp;&nbsp;
<a href="https://2011.igem.org/Team:Nevada/Notebook/Weeks912"><font size=4>Weeks 9-12</font></a>&nbsp;&nbsp;&nbsp;
<a href="https://2011.igem.org/Team:Nevada/Notebook/Weeks912"><font size=4>Weeks 9-12</font></a>&nbsp;&nbsp;&nbsp;
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<a href="https://2011.igem.org/Team:Nevada/Notebook/Weeks912"><font size=4>Weeks 13-END</font></a>&nbsp;&nbsp;&nbsp;
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<a href="https://2011.igem.org/Team:Nevada/Notebook/Weeks1316"><font size=4>Weeks 13-END</font></a>&nbsp;&nbsp;&nbsp;
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<div class="nbtext" align="left">
<div class="nbtext" align="left">
<font size=6>Calender Weeks 1-4</font>
<font size=6>Calender Weeks 1-4</font>
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To edit on a specific week. Click on the edit button corresponding to the week.
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=='''Week 1 - June 1st-5th'''==
=='''Week 1 - June 1st-5th'''==
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Enzymology<br>
Enzymology<br>
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This week we wrote up and did prep for the Hexokinase coupled assay which will be used to quantify amounts of cyanobacteria glucose secretion.
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CL: This week we wrote up and did prep for the Hexokinase coupled assay which will be used to quantify amounts of cyanobacteria glucose secretion.
   <ul>Rxn:
   <ul>Rxn:
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Enzymology<br>
Enzymology<br>
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Test assay for ethanol detection. Simple one-step assay takes ethanol and NAD+ into acetylaldahyde and NADH with use of alcohol Deh (ADH) enzyme. Final NADH concentration can be determined using its molar extinction coefficient and absorbance at 340.0 nm, and is proportionate to initial ethanol concetration.  Ethanol concentrations ranging from 0.05mM-0.25mM were assayed with 173U/mL ADH.  and absorbances were measured at 340.0 nm.
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CL: This week we ran the Hexokinase glucose/fructose test assay.  ASSAY WAS NOT TESTED WITH PGI! The PGI enzyme, responsible for converting fructose into glucose, will be ordered and stored until further testing.
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Results: Final NADH concentrations were determined using the molar extinction coefficient and were proportionate to initial glucose concentrations.  
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Results: Final NADH concentrations were calculated to be off by a factor of ten due to unexpectedly low absorbancies. Assay was repeated with increased ethanol concentrations (0.5-10mM), but absorbancies remained lower than expected.
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Discussion: At this point we have only tested glucose quantification, although we have not assayed with PGI and tested fructose quantification, we have concluded that this assay is working and is sensitive enough for our application.   <br>
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Discussion: It was determined that this assay was now sensitive enough for the range of ethanol concentrations that will need to be detected in our project, therefore we will use other means of ethanol detection using simple primary alcohol detection methods using oxidizing reagents. <br>
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Media <br>
Media <br>
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<font color=green>
Enzymology<br>
Enzymology<br>
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This week we ran the Hexokinase glucose/fructose test assay.  ASSAY WAS NOT TESTED WITH PGI! The PGI enzyme, responsible for converting fructose into glucose, will be ordered and stored until further testing.   
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CL: This week consisted of write up and prep for the ethanol detection assay.  We have chosen to use an Alcohol Dehydrogenase (ADH) assay in which ADH catalyzes a reaction between a primary alcohol (ethanol) and NAD+ to produce acetaldehyde and NADHThe NADH product can be quantified using its absorbency at 340nm, and it directly proportional to original ethanol concentrations.
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Results: Final NADH concentrations were determined using the molar extinction coefficient and were proportionate to initial glucose concentrations.  
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Discussion: At this point we have only tested glucose quantification, although we have not assayed with PGI and tested fructose quantification, we have concluded that this assay is working and is sensitive enough for our application. 
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Media<br>
Media<br>
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Enzymology<br>
Enzymology<br>
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The week consisted of prep work for our first ethanol test assay. We are using an assay method traditionally used for testing for alcohol dehydrogenase (ADH) activity, but can still be used to quantitate ethanol present.  Prep work consisted of preparing an ADH stock solution and making buffers, specifically a pyrophosphate buffer which will be used as the assay buffer, and two separate phosphate buffers, one containing Bovine Serum Albumin, used to store and dilute the ADH enzyme.  Also prepped were ethanol standards of known concentration, which will be used to “test” the assay next week. Standard were prepared to be with the ranges of expected ethanol secretion. <br>
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CL: The week we continued to prep for our first ethanol test assay. Prep work consisted of preparing an ADH stock solution and making buffers, specifically a pyrophosphate buffer which will be used as the assay buffer, and two separate phosphate buffers, one containing Bovine Serum Albumin, used to store and dilute the ADH enzyme.  Also prepped were ethanol standards of known concentration, which will be used to “test” the assay next week. Standard were prepared to be with the ranges of expected ethanol secretion. <br>
</font> <br>
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Media<br>
Media<br>

Latest revision as of 03:05, 29 September 2011




E. Coli
Jovanna, Megan, Lauren, Sam, Dafne, Tutku & Destiny

The E.coli group is responsible for making the constructs which will produce fatty acids and ethanol.

Cyano
Megan, Dru, Vadim, Marguerite, Laura, David, Jen, Ron & Chris

The cyano group is responsible for increasing glucose production and secretion in cyanobacteria.

Assay
Casey, Sam, Vadim, Majid, Megan, and Jovanna

The assay group is responsible for testing and verifying the products made by our system.

Media
Bryson & Matt

The media group is responsible for creating the best possible co-cultivation system for E.coli and cyanobacteria. They are also responsible for creating a co-cultivation apparatus.

Description :
BTE-Bay Laurel (Plant) thioesterase gene- produces 12 and 14 carbon medium chain fatty acids that can be converted to biofuels.

PDC/ADH- pyruvate decarboxylase/aldehyde dehydrogenase operon. This part can be used to produce ethanol. PDC converts pyruvate to acetaldehyde. Alcohol dehydrogenase can then turn acetaldehyde into ethanol.

ThiE-Thiamine E synthesizing gene in cyanobacteria. The enzyme is usually referred to as thiamine monophosphate pyrophosphorylase. Important for vitamin B synthesis in cyanobacteria. Knockout of this gene will allow for production of an auxotroph in cyanobacteria.


sigma70 promoter- constitutive promoter in E.coli.

trc promoter- inducible promoter in E.coli. It is not sensitive to changes in glucose concentrations.

GLF- glucose facilitator gene responsible for transporting glucose out of the cyanobacteria.

INV- invertase gene responsible for breaking down sucrose into glucose and fructose. Gene is from cyanobacteria.

Weeks 1-4    Weeks 5-8    Weeks 9-12    Weeks 13-END   

Calender Weeks 1-4

Contents

Week 1 - June 1st-5th

E. Coli
Lab clean-up, media preparation. Registry distribution received from iGEM Headquarters. Prepared DNA from iGEM kit for future use (pSB1C3, pSB1A3, pSB1K3 and σ70 constitutive promoter).

Bay Laurel Thioesterase

MT:Codon optimized the Bay Laurel Thioesterase for E. coli. Ordered gene through gene script with RBS and terminator.


Cyano
Lab preparation. Equipment transport and removal.

Enzymology
CL: This week we wrote up and did prep for the Hexokinase coupled assay which will be used to quantify amounts of cyanobacteria glucose secretion.

    Rxn:
  • 1. glucose + ATP --Hx-> G-6-P + ADP
  • 2. G-6-P + NAD+ --G-6-PDeH-> G-6-P + NADH


Reaction will use the Glucose assay kit (Genzyme) containing 2000U/L Hexokinase reagent and 4000U/L G-6-P DeH and measure glucose concentrations ranging from 0.05mM-0.25mM and absorbances were measured at 340.0 nm.



Media
Formation of Media Group.

Week 2 - June 6th-12th

E. Coli
Transformed iGEM plasmids (pSB1C3, pSB1A3, pSB1K3) and σ70 constitutive promoter (J23101) into NEB10 β strain of E. coli (New England Biolabs). Inoculated single colonies in LB-Ampicillin to create liquid cultures. Performed minipreps and nanodrop analysis of cultures.

To confirm products, 0.5ug of DNA was digested with EcoRI. Digestions were run on a 1.2% gel, and bands obtained confirmed pSB1C3 (2070bp), pSB1A3 (2155bp), pSB1K3 (2204bp), and σ70 constitutive promoter (35bp).


Cyano
Procedure: Synthetic genes encoding for the GLF protein and invertase were ordered and transformed into DH5α cells. Transformants were selected for on ampicillin plates and cultured in LBamp broth. Plasmid DNA from the transformants was isolated using a QIAgen miniprep kit and submitted for sequencing.

Results/Discussion: Sequencing data indicated successful transformations of DH5α cells with GLF and invertase. Thus, a large amount of plasmids containing these genes were produced for future experiments.

Enzymology
CL: This week we ran the Hexokinase glucose/fructose test assay. ASSAY WAS NOT TESTED WITH PGI! The PGI enzyme, responsible for converting fructose into glucose, will be ordered and stored until further testing. Results: Final NADH concentrations were determined using the molar extinction coefficient and were proportionate to initial glucose concentrations. Discussion: At this point we have only tested glucose quantification, although we have not assayed with PGI and tested fructose quantification, we have concluded that this assay is working and is sensitive enough for our application.

Media

Tested growth of NEB 10-ß E. coli cells in BG-11 supplemented with 50 mM glucose. Growth was measured relative to LB broth. Cells were cultured at 37° C with 300 rpm shaking. E. coli showed impaired ability to grow in BG-11 media.


Week 3 - June 13th-19th

E. Coli
Pyruvate Decarboxylase & Alcohol Dehydrogenase
JC: Received pyruvate decarboxylase and alcohol dehydrogenase (PDC/ADH) genes (3054bp) on 6/14/11. Genes were in pUC57 plasmid (AmpR, 2710bp). Transformed PDC/ADH/pUC57 into NEB10 β cells and selected single colonies from LB-Ampicillin plates. Grew liquid cultures in LB-Amp and performed minipreps and nanodrop analysis.

To prepare PDC/ADH for insertion into pSB1C3, 0.5ug of DNA was digested with EcoRI and PstI. Digestions were run on a 0.7% agarose gel, and bands obtained confirmed PDC/ADH (3054bp) and pUC57 (2710bp).

Performed QIAquick PCR Purification of PDC/ADH- EcoRI/PstI digest and pSB1C3- EcoRI/PstI digest using 0.5ug and 0.25ug of DNA respectively. Ligated PDC/ADH and pSB1C3 and transformed into NEB10 β cells. No cells grew on LB-Chloramphenicol plates =(

Bay Laurel Thioesterase
MT: A restriction digest was done on BTE and pSB1C3 with EcoRI and PstI. The digest were checked on a 0.7% agarose gel. The gel confirmed full digestion with EcoRI and PstI on both the BTE and pSB1C3. Overnight ligation was done on the digest at 4C. NEB Beta cells where used for the transformation. Selection was done with chloramphenicol plates and cross selection was done with ampicillin plates.


Cyano
6/13/11: Prepared M-9 Media

Enzymology
CL: This week consisted of write up and prep for the ethanol detection assay. We have chosen to use an Alcohol Dehydrogenase (ADH) assay in which ADH catalyzes a reaction between a primary alcohol (ethanol) and NAD+ to produce acetaldehyde and NADH. The NADH product can be quantified using its absorbency at 340nm, and it directly proportional to original ethanol concentrations.


Media
Growth of NEB 10-ß cells was tested in minimal (M9) media supplemented with 36 mM glucose and BG-11 supplemented with 50 mM glucose or 1 mg/mL (18.7 mM) NH4Cl and 50 mM glucose. The results of this experiment showed negligible growth in all media aside from LB. It was thought that this was likely due to one or more auxotrophies in 10-ß cells.

New England Biolabs technical assistance was contacted, and it was confirmed that 10-ß cells are auxotrophic for leucine. The next experiment will be to see if leucine additions to the media will allow for sufficient growth.

Week 4 - June 20th-26th

E. Coli
Pyruvate Decarboxylase & Alcohol Dehydrogenase
JC: Re-attempted transformation of PDC/ADH/pSB1C3 into NEB10 β cells. Selected single colonies from LB-Chloramphenicol plates and single colony streaked onto LB-Chl and LB-Amp plates to perform plasmid check. Grew liquid cultures in LB-Chl and performed minipreps and nanodrop analysis.
To confirm PDC/ADH insertion into pSB1C3, 0.5ug of PDC/ADH/pSB1C3 was digested with EcoRI and PstI. Digestions were run on a 1% agarose gel, and bands obtained confirmed PDC/ADH (3054bp) and pSB1C3 (2070bp).
PDC/ADH/pSB1C3 was sent to Nevada Genomics Center for sequencing on 6/23/11.

Bay Laurel Thioesterase

MT: 3-2 and 3-3 were the only cell lines that did not grow on the cross selection amp plates. 3-2 and 3-3 were cultured in LBCm34. The cultures were minipreped, nanodroped, and digested with EcoRI and PstI. The digestion was checked with a 0.7% agarose gel. The gel showed that there was full digestion of 3-2 with a band at 2000 (pSBiC3) and 1200 (BTE) which was to be expected, and partial digestion of 3-3. Sample 3-2 was chosen to be sent to the Nevada Genomic Center for sequencing, because it was fully digested with EcoRI and PstI. Sequencing from the Nevada Genomic center proved the successful ligation of Bay Laurel Thioesterase with RBS and Terminator into pSB1C3, and is ready for submission to iGEM.



Cyano
Procedure: GLF and INV were ligated into the iGEM vector PSB1C3. Promoters and integration vector for Synechocystis from iGEM Utah State received. Promoter (petBD, integration vector, GLF, and INV in pSB1C3 were transformed in DH5α cells. Cultures streaked and grown overnight. Colonies selected from streaked plates, liquid cultures grown overnight. Liquid cultures miniprepped to isolate plasmids. Digestion using EcoR1 and PstI performed on each of isolated plasmids including INV and GLF, gels run and imaged. LB with 30% glycerol stock prepared for freezing of E. Coli.

Results/Discussion: The EcoRI and PstI digests did not confirm the successful transformation and isolation of pSB1C3 containing petBD, integration vector, GLF, or INV. Either the digestion was incorrectly performed, or the transformations were unsuccessful. The isolated plasmid DNA needs to be submitted for sequencing to confirm that all genes necessary for PCR and gibson assembly are correctly ligated in the pSB1C3 vector.

Procedure: An apparatus for growing Synechocystis was prepared using a flask and glass tubing connected to an aquarium pump to aerate the culture. Synechocystis was grown in a photobioreactor for four days, and the OD730 was measured once a day to determine growth. Synechocystis was grown in BG-11 medium with either 0% glucose or 50 mM glucose.

Results/Discussion: Over four days, the OD730 did not change for either type of culture. This indicates that the Synechocystis did not grow, and that modifications to the growth apparatus are necessary. A larger volume of culture is necessary, as well as a humidifying device.
6:22/11: Mini prep of glf promotor and DNA digestion

Enzymology
CL: The week we continued to prep for our first ethanol test assay. Prep work consisted of preparing an ADH stock solution and making buffers, specifically a pyrophosphate buffer which will be used as the assay buffer, and two separate phosphate buffers, one containing Bovine Serum Albumin, used to store and dilute the ADH enzyme. Also prepped were ethanol standards of known concentration, which will be used to “test” the assay next week. Standard were prepared to be with the ranges of expected ethanol secretion.

Media
A time course experiment was performed to test the growth of 10-ß cells in BG-11 supplemented with leucine. Growth was tested in BG-11, BG-11 with NH4Cl, BG-11 with leucine, and BG-11 with NH4Cl and leucine. In all cases the media was also supplemented with 50 mM glucose. The results indicated that leucine made no difference in the carrying capacity of our media, and NH4Cl had a marginal benefit.

Next, testing will be done with different cell lines with the intent of finding a strain that can be readily cultured in BG-11 with minimal supplements.


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