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Thursday 30 July Wet-lab
- 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 13th 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
- ~5𝝻g of lac promoter plasmids were digested with SpeI and PstI and ~8𝝻g 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
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- 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 37oC for one hour, with an 80oC 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.
Thursday 27 August
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