Difference between revisions of "Team:UCLouvain/Protocols"

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<span>DNA Gel electrophoresis</span>
 
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<li style="color:#999999;margin-left:20px;">Agarose Powder</li>
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<li style="color:#999999;margin-left:20px;">Gel Tank</li>
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<li style="color:#999999;margin-left:20px;">DNA ladder</li>
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<li style="color:#999999;margin-left:20px;">DNA loading dye</li>
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<li style="color:#999999;margin-left:20px;">Prepare 0.8% agarose (w/v) solution in TAE buffer.</li>
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<li style="color:#999999;margin-left:20px;">Heat until the agarose dissolve.</li>
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<li style="color:#999999;margin-left:20px;">Pour into the gel mould and set a comb.</li>
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<li style="color:#999999;margin-left:20px;">Wait for the gel to solidify.</li>
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<li style="color:#999999;margin-left:20px;">Remove the comb and transfer into the gel tank. Fill with TAE buffer.</li>
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<li style="color:#999999;margin-left:20px;">Fill the wells with DNA ladder and your samples mixed with corresponding amount of loading dye.</li>
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<li style="color:#999999;margin-left:20px;">Run for 20-30 minutes at 120 V.</li>
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Revision as of 00:44, 31 October 2017

iGEM UCLouvain Team iGEM UCLouvain Team

In the Lab
Protocols
DNA Gel electrophoresis

Materials

  • Agarose Powder
  • TAE buffer
  • Gel mould
  • Gel Tank
  • DNA ladder
  • DNA loading dye

Procedure

  1. Prepare 0.8% agarose (w/v) solution in TAE buffer.
  2. Heat until the agarose dissolve.
  3. Pour into the gel mould and set a comb.
  4. Wait for the gel to solidify.
  5. Remove the comb and transfer into the gel tank. Fill with TAE buffer.
  6. Fill the wells with DNA ladder and your samples mixed with corresponding amount of loading dye.
  7. Run for 20-30 minutes at 120 V.

T4 Ligation

Materials

  • PCR tubes
  • T4 DNA Ligase (NEB)
  • T4 DNA Ligase buffer 10x
  • ddH20
  • Insert DNA

Procedure

  1. Calculate insert to vector ratio with NEB calculator. Most common is 3:1.
  2. Add the vector plasmid, the insert DNA, 2 µL of buffer, 1 µL of T4 ligase and enough ddH20 to reach 20 µL.
  3. Gently mix by pipeting up and down.
  4. For cohesive (sticky) ends, incubate at 16°C overnight or room temperature for 10 minutes. For blunt ends or single base overhangs, incubate at 16°C overnight or room temperature for 2 hours.
  5. Heat inactivate at 65°C for 10 minutes.
Selection of the sgRNA and modification of pTarget

Introduction

This protocol cover the identification of a suitable N20 sequence and the modification of the pTarget plasmid. Protocol from S. Worms.

Procedure

1) Selection of the N20 sequence

  1. Use Benchling's CRISPR tool, click on "Design and analyse guide"
  2. Using the default settings (note: Doench et al.'s optimized scoring algorithm doesn't work for circular sequences such as bacterial chromosomes)
  3. Select the target region and press (+)
  4. Select the N20 with the higher On-target score.

2) Modification of pTarget

pTarget is currently available in two version, pTargetF with spectinomycin resistance and pTargetTet_pyrF and its derivatives with a tetracyclin resistance. They should behave identically.

1. Design a forward oligo to use for a QuickChange-like insertion of the N20 sequence. The sequence of the primer should be the following:

agctagctcagtcctaggtataatactagtNNNNNNNNNNNNNNNNNNNNgttttagagctagaaatagcaagttaaaa

where the Ns stands for your N20 sequence.

2. Amplify the pTarget backbone of your choice using the designed forward primer and the appropriate reverse primer (actagtattatacctaggactgagctagctg) using Q5 polymerase and the following conditions:

Temperature (°C) Time
98 30 s
98 15 s 35 x
65 30 s
72 75 s
72 120 s
4 inf.
DNA Gel electrophoresis

Materials

  • Agarose Powder
  • TAE buffer
  • Gel mould
  • Gel Tank
  • DNA ladder
  • DNA loading dye

Procedure

  1. Prepare 0.8% agarose (w/v) solution in TAE buffer.
  2. Heat until the agarose dissolve.
  3. Pour into the gel mould and set a comb.
  4. Wait for the gel to solidify.
  5. Remove the comb and transfer into the gel tank. Fill with TAE buffer.
  6. Fill the wells with DNA ladder and your samples mixed with corresponding amount of loading dye.
  7. Run for 20-30 minutes at 120 V.
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