Difference between revisions of "Team:CCU Taiwan/InterLab"

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<p class="first">Background</p>
 
<p class="first">Background</p>
 
                 <p class="description">All of the 2018 iGEM teams are invited and encouraged to participate in the Fifth International InterLaboratory Measurement Study in synthetic biology.” Our team took part in this study which aimed to be one of the labs to make the calibration in different condition. In our case, we measured fluorescence using plate reader.</p>
 
                 <p class="description">All of the 2018 iGEM teams are invited and encouraged to participate in the Fifth International InterLaboratory Measurement Study in synthetic biology.” Our team took part in this study which aimed to be one of the labs to make the calibration in different condition. In our case, we measured fluorescence using plate reader.</p>
                 <p class="first">Interlab Project</p>
+
                  
  <a href="#ca1">OD<sub>600</sub> Reference point - LUDOX Protocol</a>
+
  <div class="IP">
  <a href="#ca2">Particle Standard Curve - Microsphere Protocol</a>
+
    <p class="first">Interlab Project</p>
  <a href="#ca3">Fluorescence standard curve - Fluorescein Protoco</a>
+
      <p><a href="#ca1">OD<sub>600</sub> Reference point - LUDOX Protocol</a></p>
  <a href="#ca4">Cell measurement protocol</a>
+
      <p><a href="#ca2">Particle Standard Curve - Microsphere Protocol</a></p>
 +
      <p><a href="#ca3">Fluorescence standard curve - Fluorescein Protoco</a></p>
 +
      <p><a href="#ca4">Cell measurement protocol</a></p>
 +
  </div>
 
                 <p class="first">Experiment</p>
 
                 <p class="first">Experiment</p>
 
                 <p class="second" id="ca1">Calibration 1: OD<sub>600</sub> Reference point - LUDOX Protocol</p>
 
                 <p class="second" id="ca1">Calibration 1: OD<sub>600</sub> Reference point - LUDOX Protocol</p>

Revision as of 04:37, 23 July 2018

Background

All of the 2018 iGEM teams are invited and encouraged to participate in the Fifth International InterLaboratory Measurement Study in synthetic biology.” Our team took part in this study which aimed to be one of the labs to make the calibration in different condition. In our case, we measured fluorescence using plate reader.

Interlab Project

OD600 Reference point - LUDOX Protocol

Particle Standard Curve - Microsphere Protocol

Fluorescence standard curve - Fluorescein Protoco

Cell measurement protocol

Experiment

Calibration 1: OD600 Reference point - LUDOX Protocol

Materials:

  1. 1ml LUDOX CL-X (provided in kit)
  2. dd H2O (provided by team)
  3. 96 well plate, black with clear flat bottom preferred (provided by team)

Method:

  1. Add 100 μl LUDOX into wells A1, B1, C1, D1
  2. Add 100 μl of dd H2O into wells A2, B2, C2, D2
  3. Measure absorbance at 600 nm of all samples in the measurement mode you plan to use for cell measurements
  4. Record the data in the table below or in your notebook
  5. Import data into Excel sheet provided ( OD600 reference point tab )

Data Result:





Calibration 2: Particle Standard Curve - Microsphere Protocol

Materials:

  1. 300 μL Silica beads - Microsphere suspension (provided in kit, 4.7 x 108 microspheres)
  2. dd H2O (provided by team)
  3. 96 well plate, black with clear flat bottom preferred (provided by team)

Method:

Prepare the Microsphere Stock Solution:

  1. Obtain the tube labeled “Silica Beads” from the Interlab test kit and vortex vigorously for 30 seconds.
  2. Immediately pipet 96 μL microspheres into a 1.5 mL eppendorf tube
  3. Add 904 μL of dd H2O to the microspheres
  4. Vortex well.

Data Result:




Calibration 3: Fluorescence standard curve - Fluorescein Protocol

Materials:

  1. Fluorescein (provided in kit)
  2. 10ml 1xPBS pH 7.4-7.6 (phosphate buffered saline; provided by team)
  3. 96 well plate, black with clear flat bottom (provided by team)

Method:

Prepare the fluorescein stock solution:

  1. Spin down fluorescein kit tube to make sure pellet is at the bottom of tube.
  2. Prepare 10x fluorescein stock solution (100 μM) by resuspending fluorescein in 1mL of 1xPBS.
  3. Dilute the 10x fluorescein stock solution with 1xPBS to make a 1x fluorescein solution with concentration 10 μM: 100 μL of 10x fluorescein stock into 900 μL 1xPBS

Prepare the serial dilutions of fluorescein:

  1. Add 100 μl of PBS into wells A2, B2, C2, D2....A12, B12, C12, D12
  2. Add 200 μl of fluorescein 1x stock solution into A1, B1, C1, D1
  3. Transfer 100 μl of fluorescein stock solution from A1 into A2.
  4. Mix A2 by pipetting up and down 3x and transfer 100 μl into A3…
  5. Mix A3 by pipetting up and down 3x and transfer 100 μl into A4...
  6. Mix A4 by pipetting up and down 3x and transfer 100 μl into A5...
  7. Mix A5 by pipetting up and down 3x and transfer 100 μl into A6...
  8. Mix A6 by pipetting up and down 3x and transfer 100 μl into A7...
  9. Mix A7 by pipetting up and down 3x and transfer 100 μl into A8...
  10. Mix A8 by pipetting up and down 3x and transfer 100 μl into A9...
  11. Mix A9 by pipetting up and down 3x and transfer 100 μl into A10...
  12. Mix A10 by pipetting up and down 3x and transfer 100 μl into A11...
  13. Mix A11 by pipetting up and down 3x and transfer 100 μl into liquid waste
  14. Repeat dilution series for rows B, C, D
  15. Measure fluorescence of all samples in instrument
  16. Record the data in your notebook
  17. Import data into Excel sheet provided ( fluorescein standard curve tab )

Data Result: