Difference between revisions of "Team:Goettingen/Results"

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<a href="" onClick=" $('#menu5').slideToggle(300, function callback() {  }); return false;"><h1>Cellulase</h1></a>
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    The cellulase gene was amplified using PCR. The primers which were used contained the restriction sites for ligation into the pBAD vector. The cellulase
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    PCR products were then checked on 0.8 % agarose gel.
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[[File:TeamGoettingen_CellulasePCR.jpg|300px|center|thumb|Figure 1: Cellulase PCR product was run on a 0.8 % agarose gel. The desired cellulase sequence is at 2496 bp.]]
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    The cellulase PCR products were then purified by using the <strong>QIAquick® PCR Purification Kit (QIAGEN). </strong>After the PCR products were purified,
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    the concentration of DNA was measured by Nanodrop 2000c Spectrophotometer.<strong></strong>
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    <strong>Restriction control of pBAD_CCEL and cellulase PCR product</strong>
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    The purified cellulase PCR product and the pBAD_CCEL vector were restricted by following a double digest protocol with SacI and PvuII enzymes. After
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    restriction control products were purified by using the <strong>QIAquick® PCR Purification Kit (QIAGEN) </strong>the concentration of DNA was measured by
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    Nanodrop 2000c Spectrophotometer.<strong></strong>
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    <strong>Ligation of Cellulase into pBAD- CCEL</strong>
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    The cellulase gene was then ligated into the pBAD vector containing the CCEL (<em>Clostridium</em>
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    <em>cellulolyticum</em>
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    ) dockerin.
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    For ligation of the cellulase PCR product into the restricted pBAD_CCEL vector, the Thermo Fisher T4 Ligase Sticky End Ligation protocol was followed.
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    <strong>Transformation of pBAD_CellulaseCCEL into chemically competent Top10 <em>E. coli </em>cells</strong>
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    pBAD_CellulaseCCEL was transformed into competent Top10 <em>E. coli </em>cells by using the heat shock transformation method.
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[[File:TeamGoettingen_pBAD_CellulaseCCEL_Trafo.jpg|300px|center|thumb|Figure 2: Transformation of pBAD_CellulaseCCEL into competent Top 10 E. coli cells. The image shows plates with successful transformants.]]
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    Colonies from transformation plates were inoculated into LB medium containing ampicillin (100 µg/ml).
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    <strong>Plasmid Extraction: peqGold Plasmid Miniprep Kit</strong>
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    Plasmid extraction was done for colonies inoculated in LB medium by using peqGold Plasmid Miniprep kit and plasmid concentration was measured by using
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    Nanodrop 2000c Spectrophotometer.
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    Restriction control was done with the enzymes SacI and PvuII from Thermo fisher scientific.<strong> </strong>Restricted plasmids were checked on a 0.8 %
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    agarose gel.
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[[File:TeamGoettingen_Restriction_pBAD_CellulaseCCEL.jpg|300px|center|thumb|Figure 3: Restriction control of the pBAD_CellulaseCCEL construct from TOP10 E. coli positive clones by with SacI and PvuII.  Colony 1 has the desired insert.]]
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    The correct insert was confirmed through sequencing.
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<a href="" onClick=" $('#menu4').slideToggle(300, function callback() {  }); return false;"><h1>BioBricks</h1></a>
 
<a href="" onClick=" $('#menu4').slideToggle(300, function callback() {  }); return false;"><h1>BioBricks</h1></a>
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Revision as of 00:48, 19 September 2015



Project Results

Transformation Efficiency Kit, RFP construct (iGEM)

RFP

Esterase and Phosphatase

Cellulase