Team:Washington/Protocols/pGA

From 2011.igem.org

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For the pGA assay, the insert came from a pGA1C3 vector and the insert came from a pGA1A3 vector expressing GFP. We used primers pGAprefix_fwd and pGAsuffix_rev to amplify the insert, and pGAsuffix_fwd and pGAprefix_rev to amplify the backbone.
For the pGA assay, the insert came from a pGA1C3 vector and the insert came from a pGA1A3 vector expressing GFP. We used primers pGAprefix_fwd and pGAsuffix_rev to amplify the insert, and pGAsuffix_fwd and pGAprefix_rev to amplify the backbone.
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For the pSB assay, the insert came from a pSB3K3 vector and the insert came from a pSB1A3 vector expressing low GFP levels that are not strong enough to see visually. We used Biobrick primers [http://partsregistry.org/wiki/index.php?title=Part:BBa_G1004 BioBrick_f] and [[http://partsregistry.org/wiki/index.php?title=Part:BBa_G1005 BioBrick_r]][http://partsregistry.org/wiki/index.php?title=Part:BBa_G1000 Suffix_f] and [[http://partsregistry.org/wiki/index.php?title=Part:BBa_G1001 Prefix_r]] to amplify the backbone.
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For the pSB assay, the insert came from a pSB3K3 vector and the insert came from a pSB1A3 vector expressing low GFP levels that are not strong enough to see visually. We used Biobrick primers [http://partsregistry.org/wiki/index.php?title=Part:BBa_G1004 BioBrick_f] and [[http://partsregistry.org/wiki/index.php?title=Part:BBa_G1005 BioBrick_r] to amplify the insert and [http://partsregistry.org/wiki/index.php?title=Part:BBa_G1000 Suffix_f] and [[http://partsregistry.org/wiki/index.php?title=Part:BBa_G1001 Prefix_r]] to amplify the backbone.
=== Gibson reactions ===
=== Gibson reactions ===

Revision as of 20:57, 28 September 2011


Gibson assembly efficiency assay

PCR

The PCR reactions were conducted at 20 μL volumes with 2x Phusion Flash polymerase master mix, 1 ng plasmid template, and 0.5 μM of each primer.

For the pGA assay, the insert came from a pGA1C3 vector and the insert came from a pGA1A3 vector expressing GFP. We used primers pGAprefix_fwd and pGAsuffix_rev to amplify the insert, and pGAsuffix_fwd and pGAprefix_rev to amplify the backbone.

For the pSB assay, the insert came from a pSB3K3 vector and the insert came from a pSB1A3 vector expressing low GFP levels that are not strong enough to see visually. We used Biobrick primers BioBrick_f and [BioBrick_r to amplify the insert and Suffix_f and [Prefix_r] to amplify the backbone.

Gibson reactions

After performing PCR as outlined above, each fragment was run on a 1% agarose gel and gel-extracted using a Qiagen QIAquick gel extraction kit. 20 ng of gel-extracted insert and 20 ng of gel-extracted backbone were added to a 20 μL Gibson reaction which was set up on ice and incubated at 50 degrees C for one hour.

pGA vector Assembly

Note: Prepare these mixtures on ice

  1. . Obtain a 40 uL aliquot of BL21 cells.
  2. . Add 120 uL of ice water to the aliquot.
  3. . The total volume is now 160 uL; split evenly among four labeled tubes: INS + BCK, INS + BCK, INSctrl, BCKctrl.
  4. . * INS + BCK tubes (x 2)
      • add 1 uL of 10X-diluted pGA Gibson product (1A3 BCK/INS pLacGFP)
  5. . * INSctrl tube
    * add 100 pg of pLacGFP gel extract

6. * BCKctrl

    * add 100 pg of 1A3 gel extract


Repeat the process for the comparison pSB vector as follows:

pSB vector Assembly
    • 1 uL of pSB Gibson product (T19-1A3/pLacGFP)
    • 1 ng INS (pLacGFP- gel extract)
    • 1 ng BCK (T19-1A3- gel extract)
  1. Once all the samples are ready, begin the transformation.
    • Rescue each sample in 500 mLs of LB
    • Incubate all samples @ 37oC for ~45 min.
  2. Plate 50 uL on each sample onto a LB + Chlor + Amp + IPTG plate.
    • 1 plate for each control in each vector set.
    • 3 plates for each Gibson product tube in each set. ( 6 plates for each vector set + 2 control plates)