Difference between revisions of "Team:Macquarie Australia/Notebook1CBP"
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<p>This notebook includes the lab-work done to insert the genes to allow <i>E. coli</i> to transform protoporphyrin-IX to chlorophyll-<i>a</i>.</p> | <p>This notebook includes the lab-work done to insert the genes to allow <i>E. coli</i> to transform protoporphyrin-IX to chlorophyll-<i>a</i>.</p> | ||
− | <h5>Thursday 30 July | + | <h5>Thursday 30 July</h5> |
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<li>Plasmid prep of: </li> | <li>Plasmid prep of: </li> | ||
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− | <h5>Tuesday 4 August </h5> | + | <h5>Tuesday 4 August</h5> |
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<li>Transformed ligations from the 30th of July </li> | <li>Transformed ligations from the 30th of July </li> | ||
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− | <h5>Wednesday 5 August </h5> | + | <h5>Wednesday 5 August</h5> |
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<li>Restriction digest of plasmid preps from 30th July </li> | <li>Restriction digest of plasmid preps from 30th July </li> | ||
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− | <h5>Thursday 6 August </h5> | + | <h5>Thursday 6 August</h5> |
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<li>Plasmid prep of liquid cultures of lac + gene parts transformed on the 4th August. </li> | <li>Plasmid prep of liquid cultures of lac + gene parts transformed on the 4th August. </li> | ||
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− | <h5>Thursday | + | <h5>Thursday 13 August</h5> |
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<li>PCR amplification, followed by gel electrophoresis, to make composite parts of:</li> | <li>PCR amplification, followed by gel electrophoresis, to make composite parts of:</li> | ||
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<li>Digest of:</li> | <li>Digest of:</li> |
Revision as of 07:37, 10 September 2015
Notebook - Chlorophyll Biosynthesis Pathway
This notebook includes the lab-work done to insert the genes to allow E. coli to transform protoporphyrin-IX to chlorophyll-a.
Thursday 30 July
- Plasmid prep of:
- Chlm + lac + LB-CAM (x4);
- Chli1 + lac + CAM (x4);
- lac + Chlp AMP (x3);
- lac + YCF54 + AMP (x3);
- lac + CTH1 + AMP (x3);
- Plasto + lac + CAM (x4);
- ChlD + lac + CAM (x4),
- DVR1 + lac + CAM (x4);
- lac + POK + AMP (x3)
- lac+CHL1+YCF54 CAM - DNA Extraction
- 4 Colonies - plasmid prep
- Digested
- 1 Enzyme - Linearised - EcoR1
- 2 Enzymes - Double Digest - EcoR1 +Xba1
- Next week: Run on gel
- Plasmid prep of liquid cultures of lac composite parts (ChlD, ChlM, DVR1, Chli1, Plasto), followed by nanodrop.
- Attempted to build lac composite parts
- Digest 2ug of lac plasmid with SpeI and PstI followed by PCR cleanup
- Digest 100ng of ChlD, ChlM, DVR1, Chli1 and Plasto with Xba1 and PstI using fast AP
- Ligated 50ng of digested lac plasmid with gene parts in a gene:lac 3:1 molar ratio
Tuesday 4 August
- Transformed ligations from the 30th of July
- Ran gel of lac + CTH1 + YCF54 restriction digests
Wednesday 5 August
- Restriction digest of plasmid preps from 30th July
Thursday 6 August
- Plasmid prep of liquid cultures of lac + gene parts transformed on the 4th August.
- Ran gel of restriction digests of lac + gene parts (ChlM, ChlD, ChlP, YCF54, CTH1, Plasto, Chli1, DVR1, POR, CTH1+YCF54) from yesterday.
- Gel results made no sense so re-digested the above parts for a second round of screening and conducted a PCR using gene specific primers for all except YCF54 and Plasto.
- Ran gel of second restriction digests and PCR products.
- DNA Extraction and plasmid prep
- ChlM CAM (4 colonies)
- DVR1 CAM (5 colonies)
- Plasto CAM (4 colonies)
- Digested all with:
- 1 Enzyme - Linearised - EcoR1
- 2 Enzymes - Double Digest - EcoR1 +Pst1
- Plasmid prep of: Chlm 1.1-1.6 (1.4 missing),Gun4+lac(2.1-2.3), and Gun4+lac (Amp)(3.1-3.2);
- Digestion enzymes: Plasmids were digested using:
- EcoRI
- EcoRI + SpeI (Double digestion)
- Samples were purified using gel purification.
- Plasmid prep, and nanodrop, of:
- Chld 1.1-1.4, ChlI1 2.1-2.4, ChlI1+lac 3.1-3.2, ChlI2+lac 4.1-4.2, Gun4+lac B1, Gun4+lac B2, Gun4+lac B1(sh), Gun4+lac B2 (sh)
- Enzyme digestion followed by gel elecrophoresis
- Single digest with EcoRI
- Double digest with EcoRI + SpeI
Thursday 13 August
- PCR amplification, followed by gel electrophoresis, to make composite parts of:
- lac + ChlD
- lac + Gun 4
- lac + Chlm
- lac + ChIg
- BioBrick 3A Assembly method to make composite parts of:
- lac + ChlD
- lac + Gun4
- lac + ChlM
- plasto + ChlM
- lac + ChlG
- ~5ng of lac promoter plasmids were digested with SpeI and PstI and ~8ng were digested with EcoRI and PstI. These digested plasmids were then gel purified for use in the construction of the composite parts listed above.
- Double Digest (XbaI + Pst1), followed by gel electrophoresis for purification, of:
- ChlD
- Gun4
- ChlM x2
- ChlG
Thursday 20 August
- Digest of:
- Chli2 (XbaI + Pst1)
- Chli1 (SpeI + Pst1)
- ChlD (SpeI + Pst1)
- Plasto (SpeI + Pst1)
- Plasmid preps of successful E. coli transformants from BioBrick 3A Assembly followed by PCR (due to low nucleic acid concentration) and gel electrophoresis of:
- Lac + ChlM
- Plasto + Chlm
- Gel electrophoresis showed no products
- Competent cells were transformed with Lac+ChlM composite gene parts and plasto+ChlM parts which were used in the original successful transformants
- A number of ligations were undertaken in order to build a variety of composite parts. Firstly, we ligated 25ng of digested lac plasmid from last week with the following gene parts;
- ChlD (75ng)
- GUN4 (50ng)
- ChlM (50ng)
- ChlG (50ng)
- These ligations occurred at 37°C for one hour, with an 80°C incubation to deactivate the enzyme. Once complete, the ligation products were transformed into competent cells and plated onto CAM media.
- These digested parts listed above were also ligated as seen below:
- 25ng of Chli1 + ChlD with 25ng of Chli2
- 25ng of ChlM with 25ng of Plasto
- 25ng of digested lac promoter from last week with 50ng of ChlG PCR product.
- These ligation products were also transformed into competent cells and plated onto the appropriate media.