Team:Paris Bettencourt/Notebook/Odor Library

From 2014.igem.org

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<li>(We ended up ordering the gBlock as synthetic gene sequence, because it is too long for oligos and too short for gBlocks. Oh well.)</li>
<li>(We ended up ordering the gBlock as synthetic gene sequence, because it is too long for oligos and too short for gBlocks. Oh well.)</li>
</p>
</p>
-
<h5>Date 1</h5>
+
<h5>July 7th</h5>
 +
                                        <h6>Goal</h6>
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<p>to extract plasmid of biobricks I742111 from the transformed cells. </p>
 +
                                        <h6>Procedure</h6>
 +
<p><li>1. Growth the cell for two days</li>
 +
<li>2. Centrifuge the tube for 15 minutes with 4000 rps</li>
 +
<li>3. Follow the standard protocol of Thermo Scientific miniprep kit </li>
 +
<li>4. Label the centrifuge tube and store it in the -20 freezer. (Syl miniprep)</li>
 +
</p>
 +
                                        <h6>Results</h6>
 +
<p><li>1. We grew two tubes of glycerol stocks. However living cells were only seen in one of them, which was used for miniprep.</li>
 +
<li>2. Plasmid stored in the box after the procedure. PCR would be done tomorrow. </li>
 +
</p>
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<h5>Date 1</h5>
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                                        <h6>Goal</h6>
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<p>Text</p>
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                                        <h6>Procedure</h6>
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<p>Text</p>
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                                        <h6>Results</h6>
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<p>Text</p>
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<h5>Date 1</h5>
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                                        <h6>Goal</h6>
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<p>Text</p>
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<p>Text</p>
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                                        <h6>Results</h6>
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<p>Text</p>
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<p>Text</p>
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Revision as of 14:44, 17 September 2014

Odor Library



Notebook

June

June 26th
Goal

Design plasmid for limonene synthase

Procedure

Used MG1665 strain, the RBS with the highest initial rate and the sequence of r-limonene synthase from genBank. Added polyhistidine tail to the construct. Submitted the construct to Jake.

Results

Designed plasmid for limonene synthase using the software geneious. Found a biobricks part containing this sequence. For the purpose of saving budget, we would first transform this standard part into cell and later modify it.

June 27th
Goal

: transform the bioBricks limonene synthase(BBa_I742111) part into e.coli.

  • We found that the bioBricks kit for 2014 contain the limonene synthase sequence in plate 4 position 3I.

    • Procedure

  • Start thawing the competent cells(Used Christina's competent cells) on ice.
  • Add 50 µL of thawed competent cells into pre-chilled 2ml tube, and another 50µL into a 2ml tube, labelled for your control.
  • Add 2 µL of the resuspended DNA to the 2ml tube. Pipet up and down a few times, gently. Make sure to keep the competent cells on ice.
  • Close tubes and incubate the cells on ice for 30 minutes.
  • Heat shock the cells by immersion in a pre-heated water bath at 42ºC for 60 seconds.
  • Incubate the cells on ice for 5 minutes.
  • Incubate the cells at 37ºC for 2 hours while the tubes are rotating or shaking. Important: 2 hour recovery time helps in transformation efficiency, especially for plasmid backbones with antibiotic resistance other than ampicillin.
  • Label two petri dishes with LB agar and the appropriate antibiotic(s) with the part number, plasmid backbone, and antibiotic resistance. Plate 20 µl and 200 µl of the transformation onto the dishes, and spread. This helps ensure that you will be able to pick out a single colony.
  • For the control, label two petri dishes with LB agar (CM). Plate 20 µl and 200 µl of the transformation onto the dishes, and spread.
  • You can pick a single colony, make a glycerol stock, grow up a cell culture and miniprep.

    • Results

    transformed the plasmid containing limonene synthase sequence from biobricks into E.Coli. Colonies seen on both plates. Glycerol Stock made: PB. 018 and PB. 019

    June 28th
    Goal

    Made chemical competent cell following standard protocol with MG1665 strains.

    Procedure

  • 1. The night before, inoculate a 5 ml culture and grow overnight with selection.
  • 2. The day of the experiment dilute cells ~ 1:200 into selective media. For this example add 250 ul to 50 ml of selective media. Note: The protocol is easily scaled to increase the number of cells.
  • 3. Grow the cells to an OD600 of 0.6 – 0.7. Use a large flask, 500ml, for good aeration. Use a baffled flask for fastest growth. This takes about 3 hours depending on the cells. Medium-heavy cloudiness by eye is fine.
  • 4. Spin down the cells at 4 ºC, 4000 rpm, 15 minutes. Note: Keep the cells at 4 ºC from now on.
  • 5. Resuspend cells in 15 ml, ice-cold 100 mM CaCl2. Leave on ice 4 hours to overnight.
  • 6. Spin down the cells at 4 ºC, 4000 rpm, 15 minutes.
  • 7. Resuspend cells in 4 ml, ice-cold 100 mM CaCl2 + 15% glycerol.
  • 8. Aliquot into pre-chilled Eppendorf tubes. Use immediately or store at -80ºC.
    • Note: Frozen cells are only good once.Do not refreeze cells once thawed.

    Results

    The transformed cell were grown for 20 hours and the transformation was successful. The plates were put into the 4 degree fridge for making stocks on Monday.


    July

    July 1st
    Goal

    to design the primers and gBlock to modify the BioBricks part BBa_I742111.

    Procedure

  • 1. decide the major steps of modification
  • a. to PCR the biobricks construct using primers that have Agel restriction site sequences.
  • b. to digest the PCR product
  • c. to PCR the gBlock with Promoter, RBS and restriction sites (Xbal and Agel)
  • d. to digest the PCR product
  • e. to ligate the two sequences together
  • 2. Design the primers for PCR and the gBlock including promoter, RBS and restriction sites using the software Geneious.

    • Results

  • fwd primer for BioBricks part PCR: 0PB.015
  • rev primer for BioBricks: 0PB.016
  • gBlock with promoter, RBS and restriction sites: 0PB. 019
  • fwd primer for gBlock PCR: 0PB.30
  • rev primer for gBlock PCR: 0PB.31
  • (We ended up ordering the gBlock as synthetic gene sequence, because it is too long for oligos and too short for gBlocks. Oh well.)

    • July 7th
    Goal

    to extract plasmid of biobricks I742111 from the transformed cells.

    Procedure

  • 1. Growth the cell for two days
  • 2. Centrifuge the tube for 15 minutes with 4000 rps
  • 3. Follow the standard protocol of Thermo Scientific miniprep kit
  • 4. Label the centrifuge tube and store it in the -20 freezer. (Syl miniprep)

    • Results

  • 1. We grew two tubes of glycerol stocks. However living cells were only seen in one of them, which was used for miniprep.
  • 2. Plasmid stored in the box after the procedure. PCR would be done tomorrow.

    • Date 1
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    Results

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    August

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    September

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    October

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